Drug Research

Team leader

Maria Elizabeth Tiritan

Major interests

The mission of this research line is to discover biologically active molecules, safely and efficiently target bioactive compounds, and develop analytical methods for determination of pharmaceuticals in biological and environmental matrices.

The specific objectives are:

i) to screen for bioactive compounds

Research activities include: screening for old and new synthetic compounds with therapeutic potential; elucidation of the mechanisms of activity and preclinical assays of leading compounds.

ii) to develop safe and efficient delivery systems

Research activities include: new drug delivery nanosystems for antitumoral drugs; f characterization and exploration of food-grade bacteria able to produce bioactive conjugated fatty acids (CLA, CLNA).

iii) to develop efficient chromatographic analytical methods

Research activities include: development of efficient chromatographic analytical methods for preparation and analysis of enantiomers of pharmaceuticals and illicit chiral substances; assessment of their ecotoxicological effects on aquatic species.

iii) to identify variables that influence adherence to topical treatment

Research activities include: Guidelines for adequate use of topical treatment amongst Portuguese patients with chronic dermatoses; development of therapeutic monitoring tools.

iv) disseminate good practices to promote adherence to treatment with topical medicines

Activities include: disseminating good practices at community pharmacies to promote adherence to and effectiveness of treatment with topical medicines; information and education of pharmacists and patients.

Current Projects

OrthoAlign-PI-4RL-IINFACTS-2019: Orthodontic tooth movement: biomechanics involved on aligners appliances.

              
        OrthoAlign-PI-4RL-IINFACTS-2019: Orthodontic tooth movement: biomechanics involved on aligners appliances  
Principal Investigator: 
Teresa Pinho (teresa.pinho@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI-4RL_2019
Budget: 
16.900€
Period covered: 
03/2019 - 06/2021
Abstract: 
The search for means/strategies that may subserve or enhance orthodontic movement is a current reality. Mechanical vibration and photobiomodulation (PBM) are non-invasive methods that can be applied with orthodontic treatment (OT) in order to increase the tooth movement rate, although the fundamental basis of its mechanisms of action and its predictable use remain unclear. It is well known that during OT, several therapeutic steps may lead to the following temporary alterations: reduced mouth opening, reduced bite force (BF), chewing performance interferences and appearance of muscle or joint pain. In this project we will focus on the biomechanics of clear aligners (CA) technique. We aim to understand the biomechanics involved in orthodontic tooth movement and to evaluate the possible effect of vibration and PBM on the acceleration of orthodontic tooth movement, by using customized medical devices. We also intend to verify the performance of mastication, pain pressure threshold in chewing muscles, and the incidence of Temporomandibular Disorders (TMDs), when using current orthodontic treatments such as CA in healthy individuals, without any previous signs or symptoms of TMDs.
Research Team: 
Teresa Pinho (PI), Susana Coimbra (Co-PI), Luís Moutinho Monteiro (Co-PI), Vera Almeida (Co-PI), Rui Azevedo, Virgínia Gonçalves, Vanessa Marcelino, Selma Pascoal, Óscar Carvalho, Mariana Santos, Mara Paço, Maria João Calheiros Lobo, Maria Elizabeth Tiritan, Lígia Rocha, José Carlos Ferreirinha, Filipe Samuel, Duarte Rocha, Cristina Manzanares Cespedes, António Sérgio Guimarães, Aline Gonçalves, Alexandra Costa, Albina Resende

DEBORA-PI-3RL-IINFACTS-2019: Disease, Emotion and Wellbeing: Regulated Organization of Action.

              
        DEBORA-PI-3RL-IINFACTS-2019: Disease, Emotion and Wellbeing: Regulated Organization of Action  
Principal Investigator: 
José Carlos Rocha (jose.rocha@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PFT_2019
Budget: 
4.000€
Period covered: 
03/2019 - 06/2021
Abstract: 
The emotional mediated processes between negative life-events and the actions enabling a positive outcome are capable to prevent problems and to promote happiness in societies. This pathway has been used to overcome the most challenging wellbeing difficulties, with known extreme consequences in health, considered today the most powerful modifiable disease risk factors, with known effects on relationships and economical productivity impairment. This knowledge expanded largely on last years and opened the way for new organised approaches, fine-tuned to address very specific predictors. To act we need to know exactly the best options, there is a concomitant premise of understanding the underlying factors, never disclosed nor measured. This project aims to develop or to adapt a set on very new instruments that are possible candidate variables to produce such extreme positive effect. The operational side of the project has focus on the development of twenty different instruments, some absolutely new, some very recently developed, some being developed on worldwide ongoing efforts.
Research Team: 
José Carlos Rocha (PI), Ana Teixeira (Co-PI), Maria Amélia Pçao (Co-PI), Manuela Leite, Sónia Remondes Costa, Paula Chaves, Teresa Pinho, Sara Lima, Ricardo João Teixeira, Joana Soares, Vera Almeida

CHIRALBIOACTIVE-PI-3RL-IINFACTS-2019: Chiral derivatives of xanthones and flavonoids: synthesis and biological activity evaluation.

              
        CHIRALBIOACTIVE-PI-3RL-IINFACTS-2019: Chiral derivatives of xanthones and flavonoids: synthesis and biological activity evaluation.  
Principal Investigator: 
Maria Elizabeth Tiritan (elizabeth.tiritan@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI-3RL_2019
Budget: 
15.000€
Period covered: 
03/2019 - 06/2021
Abstract: 
Xanthone derivatives and flavonoids demonstrated great potential in diverse biological activities. They are interesting chemical building blocks for preparation of new derivatives with association with chiral moieties allowing to enlarge the chemical diversity and to explore the role of the molecular stereochemistry. This work aim to synthesize a new library of chiral derivatives of xanthones (CDXs) and flavonoids (CDFs) by coupling to enantiomerically pure amino alcohols, amines, proteinogenic amino esters and amino acids. Diverse biological activities of the CDXs and CDFs will be evaluated comprising, anti-inflammatory, anti-infective and antitumor. Resistance to treatment associated with cancer therapy is often caused by the expression of efflux pumps in cancer cells, we will determine if these compounds are P-glycoprotein (Pgp) substrates, by using a MDR1-transformant yeast as host. Furthermore, their effectiveness on tumor cells will be studied through high-throughput assays of viability. As the bioenergetic deregulation is one of the emergent cancer hallmarks, their effect on metabolic parameters like lactate and glucose will also be assessed.
Research Team: 
Maria Elizabeth Tiritan (PI), Odília Queirós (Co-PI), Cristina Coelho (Co-PI), Alexandra Costa, Paolo De Marco, Sandra Quinteira, Sónia Marisa Machado, Carla Fernandes, Madalena Pinto, Carlos Afonso, Emilia Sousa, Honorina Cidade, Marta Correia da Silva, Virginia Gonçalves, Helena Susana da Costa Machado Ferreira, Nuno João Meleiro Alves das Neves, Sara Filipa Fontoura Vieira, Hassan Bousbaa, Patrícia Silva, Joel Pedrosa, Andrea Cunha, Juliana Faria, Joana Barbosa, Orquídea Lurdes Alves Resende

IMPLDEBRIS-PI-3RL-IINFACTS-2019: Biological assessment of debris from oral implants.

              
        IMPLDEBRIS-PI-3RL-IINFACTS-2019: Biological assessment of debris from oral implants.  
Principal Investigator: 
Hassan Bousbaa (hassan.bousbaa@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI-3RL_2019
Budget: 
15.000€
Period covered: 
03/2019 - 06/2021
Abstract: 
Dental implants and orthodontic mini-implants manufactured from titanium and stainless-steel alloys are routinely used in clinical practice. Most orthodontic mini-implants are manufactured from Titanium alloy (Ti6Al4V) or stainless-steel alloys although several constituent elements of these alloys reveal a mutagenic or carcinogenic potential. The aim of the present study is to carry out an in vitro cytotoxic analysis in order to assess the biological safety of particles released from titanium alloys and stainless-steel orthodontic mini-implants. During the first year of the project, these particles will be characterized in terms of size and morphology, and their cytotoxic effect analyzed in terms of cell viability and permeability. During the second year, the particles will be characterized in terms of cellular internalization mechanism and genotoxicity potential. It is expected that this study will contribute to clarify whether titanium wear-derived particles released in the oral environment are associated with harmful side effects in the human body.
Research Team: 
Hassan Bousbaa (PI), Primavera Santos (Co-PI), Bruno Sarmento (Co-PI), Flávia Sousa, Rui Moura, Andreia Almeida, Antonio Pedro Fonseca, Júlio César Matias de Souza, Ana Henriques, Patrícia Silva, Joel Pedrosa, Henrique Borges, Ana Borges

AbuGenoToxTraTap-PI-3RL-IINFACTS-2019: Comparative study of the abuse and genotoxic potential deriving from sub-chronic exposure to therapeutic doses of tramadol and tapentadol.

              
        AbuGenoToxTraTap-PI-3RL-IINFACTS-2019: Comparative study of the abuse and genotoxic potential deriving from sub-chronic exposure to therapeutic doses of tramadol and tapentadol  
Principal Investigator: 
Ricardo Dinis Oliveira (ricardo.dinis@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI-3RL_2019
Budget: 
10.000€
Period covered: 
03/2019 - 06/2021
Abstract: 
Tramadol and tapentadol are synthetic opioid analgesics widely used in the treatment of moderate to severe pain, both in acute and chronic settings. Their mechanism of action combines mu-opioid receptor agonism and neurotransmitter reuptake inhibition, acting synergistically to optimize analgesia and minimize side effects. However, adverse reactions, including serotonin syndrome and respiratory depression, have been reported, and their abuse potential has not been fully established. Since they are frequently used in a chronic context, often concomitantly with other drugs, the evaluation of their abuse, genotoxic and carcinogenic potential becomes relevant. The present study aims to evaluate the abuse potential of therapeutic doses of both opioids, sub-chronically administered to Wistar rats. Abuse- and anxiety-oriented behavioral studies, including conditioned place preference studies, will be performed upon intraperitoneal injection with tramadol, tapentadol, in single or combined administrations with naloxone, fluoxetine and MDMA. In addition, the putative genotoxic and carcinogenic effect of both opioids will be assessed by quantifying 8-OHdG levels in the same animals.
Research Team: 
Ricardo Dinis Oliveira (PI), Teresa Magalhães (Co-PI), Juliana Faria (Co-PI), Joana Barbosa, Sandra Leal, Félix Carvalho, Frederico Pereira

INSIGHT4ADHERE-PFT-IINFACTS-2019: Posological patterns, health literacy and psychosocial and clinical factors-implications for adherence to topical treatment in dermatology.

              
        INSIGHT4ADHERE-PFT-IINFACTS-2019: Posological patterns, health literacy and psychosocial and clinical factors-implications for adherence to topical treatment in dermatology  
Principal Investigator: 
Vera Almeida (vera.almeida@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PFT_2019
Budget: 
2.500€
Period covered: 
03/2019 - 02/2020
Abstract: 
Dermatosis are pathologies with high prevalence that affect the quality of life of the patient. Most skin diseases can be treated effectively and safely with topical therapies. However, non-adherence to treatment leads to the clinical ineffectiveness of this therapeutic approach, with implications not only from the point of view of patient health, but also economic on the health system. Specific parameters such as difficulty in establishing dosing instructions and treatment-related psychosocial and clinical factors have been appointed as determinants of non-adherence. In accordance, the optimization of dosing instructions in dermatology and the intervention of health professionals (including pharmacists and psychologists) may contribute to the establishment of guidelines for an adequate use of medicines and the promotion of adherence to topical treatment.
Research Team: 
Vera Almeida, : Ana Isabel Pacheco Teixeira, Carmen Maribel Bento Teixeira, Isabel Filipa Martins de Almeida, Ana Rita Almeida e Sá, Ana Rita Mendes Correia

MYCOBIOENV-PFT-IINFACTS-2019: Mycotoxins monitor and biological effects of environmental contaminants.

              
        MYCOBIOENV-PFT-IINFACTS-2019: Mycotoxins monitor and biological effects of environmental contaminants  
Principal Investigator: 
Cláudia Ribeiro (claudia.ribeiro@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PFT_2019
Budget: 
3.000€
Period covered: 
03/2019 - 02/2020
Abstract: 
These projects are related to the presence of pollutants such as mycotoxins (MT) in the environment as well as adverse effects related to exposure to pharmaceuticals and illicit drugs (PID). MT are toxic secondary metabolites produced by fungi that colonize various foods products. Because of their carcinogenicity the occurrence of these substances in foods is relatively well studied. However, there are few studies that report the occurrence of MT in environmental matrices and in Portugal there are not studies about the occurrence of MT in sediments. Concerning PID they were recognized as emerging environmental contaminants. The knowledge of the impact of PID and its metabolites on living organisms is scarce, but crucial for accurate risk assessment. Thus, the objective of this project is to finalize the occurrence studies of MT in environmental matrices and to evaluate the adverse effects of PID in several organisms with environmental relevance.
Research Team: 
Cláudia Ribeiro, Maria Elizabeth Tiritan, Cristina Couto, Ana Rita Ribeiro, João Carrola, Ariana Pereira, Filomena Teles

PESQVITS-PFT-IINFACTS-2019: Health Status Profile and Quality of Life of the elderly people of the Tâmega and Sousa Region.

              
        PESQVITS-PFT-IINFACTS-2019: Health Status Profile and Quality of Life of the elderly people of the Tâmega and Sousa Region.  
Principal Investigator: 
Sara Lima (sara.lima@ipsn.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PFT_2019
Budget: 
3.000€
Period covered: 
03/2019 - 02/2020
Abstract: 
Current demographics and projections, now available for the next decades, are unmistakable about the growth of the elderly population. Aging populations are associated with an increase in pathologies of prolonged evolution, making necessary to redirect and reorganize social and health structures, in order to meet the specific needs of the populations. These issues have received considerable political attention from both national governments and international organizations, emphasizing the need to develop support and response measures tailored to the real needs and characteristics of the community. This study aims to characterize the profile of the elderly population of the region of Penafiel, regarding the health status and quality of life as well as some clinical and psychological variables associated and, therefore, produce a first mapping of the main needs and specificities in the region. This study will allow a characterization of the elderly people, redesign the measures and reorient services and structures.
Research Team: 
Sara Lima, Lurdes Teixeira, Raquel Esteves, Clarisse Magalhães, Maria de Fátima Ribeiro, Ana Isabel Teixeira, Fernanda Pereira

ComeTax-PFT-IINFACTS-2019: Targeting the mitotic protein p31comet for cancer therapy.

              
        ComeTax-PFT-IINFACTS-2019: Targeting the mitotic protein p31comet for cancer therapy  
Principal Investigator: 
Hassan Bousbaa (hassan.bousbaa@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PFT_2019
Budget: 
3.000€
Period covered: 
03/2019 - 02/2020
Abstract: 
Interfering with mitosis in cancer cells leads to mitotic arrest and, very often, to cell death. This explains the proven success of the antimicrotubule drugs like taxanes in the treatment of many cancers. However, their clinical efficacy has been impaired by side effects and drug resistance, highlighting the need of search for new anticancer agents.
Research Team: 
Hassan Bousbaa, Bruno Sarmento, Ana Henriques, Patrícia Silva

MLIA-CESPU-2018: Maxillary lateral incisor agenesis: chemical-mechanical behavior of new composite resins and monolithic ceramics in minimally invasive aesthetic rehabilitation.

              
        MLIA-CESPU-2018: Maxillary lateral incisor agenesis: chemical-mechanical behavior of new composite resins and monolithic ceramics in minimally invasive aesthetic rehabilitation.  
Principal Investigator: 
Teresa Pinho (teresa.pinho@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
OralDiseases_2018
Budget: 
4000€
Period covered: 
2018-2019
Abstract: 
The maxillary lateral incisor agenesis (MLIA) brings orthodontic and prosthetic problems of lifelong maintenance, family counseling, complex treatment plans and an interdisciplinary approach. The MLIA can be treated by closing or opening spaces, and the cases are finished with composite resin additions (RC) or dental implants or resin bonded bridgework (RBB), respectively, after orthodontics, based on biological parameters. Both options require time-stable adhesive joints coupled with materials of adequate mechanical performance. We can minimize errors, reduce faulty predictions, and improve results with virtual prototyping using finite element analysis (FE), based on computed tomography (CT). FE analysis of pressure / strain on dental structure and biomaterials, varying tooth preparation designs and types of resin or ceramic reconstruction, can be made. It is intended to analyze in vitro and monitor the Bisphenol-A in CR and PAR to be used in the finalization of MLIA cases in young patients and to create an efficient virtual model to compare different joints, designs and materials.
Research Team: 
Teresa Pinho, João Calheiros-Lobo, Mafalda Calheiros-Lobo, Joana Duarte, Duarte Rocha, Ricardo Carbas, Jorge Belinha, Maria Elizabeth Tiritan, Lucas Silva, Lígia Rocha, Maria João Calheiros-Lobo

CHIRALXANT-CESPU-2018: Synthesis of new chiral derivatives of xanthones and antimicrobial evaluation.

              
        CHIRALXANT-CESPU-2018: Synthesis of new chiral derivatives of xanthones and antimicrobial evaluation  
Principal Investigator: 
Maria Elizabeth Tiritan (elizabeth.tiritan@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC_2018
Budget: 
5000€
Period covered: 
2018-2019
Abstract: 
Xanthone derivatives and synthetic intermediates have demonstrated great potential in diverse biological/pharmacological activities. Among them, carboxyxanthones are interesting chemical building blocks for preparation of a variety of derivatives, including chiral derivatives of xanthones (CDXs). Xanthone derivatives with chirality associated and enantioselective studies have been explored in our group with promising results. Preliminary studies with carboxyxanthones coupled with proteinogenic amino acids demonstrated grow inhibition of some bacteria strains, namely Staphylococcus aureus and Staphylococcus epidermidis. In this work we aim to synthesize a new library of CDXs as pure enantiomers by coupling carboxyxanthones to enantiomerically pure proteinogenic amino esters. Antimicrobial activity of these CDXs will be evaluated in different microorganisms, including different bacterial species, Cryptosporidium and Leishmania. Considering that biological activity is dependent on the stereochemistry in many ways, both pure enantiomers as well as the racemates will be evaluated.
Research Team: 
Maria Elizabeth Tiritan, Vera Barbosa, Madalena Pinto, Carla Fernandes, Sónia Marisa Machado, Alexandra Costa, Paolo De Marco

Microgut-CESPU-2018: Application of microfluidic devices for the encapsulation of beneficial gut bacteria.

              
        Microgut-CESPU-2018: Application of microfluidic devices for the encapsulation of beneficial gut bacteria  
Principal Investigator: 
José Carlos Andrade (jose.andrade@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC_2018
Budget: 
3500€
Period covered: 
2018-2019
Abstract: 
In recent years, some gut bacteria like Faecalibacterium prausnitzii and Akkermansia muciniphila, been identified from microbiome studies as potential probiotics or therapeutic microorganisms that could be used to treat or prevent inflammatory and diet-related physiological disorders. However, these microorganisms are difficult to handle because of their sensitivity of oxygen traces and low pH and so their successful use in food dietary supplements or drugs will depend on their stability and efficacy in humans. This project proposes to use microencapsulation to improve the viability and stability at atmospheric air and to achieve the intestinal delivery of these probiotics. Microfluidic-based techniques will be developed to encapsulate the model bacteria Bifidobacterium longum (a gut bacterium sensitive to oxygen and low pH values) in a polysaccharide-based matrix supplemented with protective agents (antioxidants and prebiotics). Different types of microfluidic devices and formulations will be studied. The microcapsules developed will be characterized and tested for stability, viability and control delivery of the beneficial microorganism.
Research Team: 
José Carlos Andrade, Vítor Seabra, Adriana Lima, Francisca Araújo, Bruno Sarmento

BIOENVIROM-CESPU-2018: Biological effects of environmental contaminants.

              
        BIOENVIROM-CESPU-2018: Biological effects of environmental contaminants.  
Principal Investigator: 
Cláudia Ribeiro (claudia.ribeiro@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC_2018
Budget: 
5000€
Period covered: 
2018-2019
Abstract: 
The adverse effects caused by the exposure to anthropogenic chemicals released into the aquatic environment were reported in various species. Due to their negative impact, the use of some of these chemicals was banned or their emission controlled. Nevertheless, new contaminants are continuously released and the undesirable effects are still unknown. Some pharmaceuticals and illicit drugs (PID) have been recognized as contaminants of emerging concern. Knowledge of the impact of these compounds, their metabolites and transformation products in living organisms is scarce but crucial for an accurate risk assessment and for the implementation of new directives and policies. Besides, most PID are chiral and enantiomers may differ in their biological responses. Thus, the aim of this project is to evaluate the ecotoxicological effects of the enantiomers of several PID as well as to investigate their enantioselective biodegradation and occurrence in aquatic matrices.
Research Team: 
Cláudia Ribeiro, Ivan Langa, Maria Miguel Coelho, Ricardo Gonçalves, Ariana Pereira, Cristiana Santos, Ana Rita Ribeiro, Alexandra Maia, Maria Elizabeth Tiritan

LFChemPro-CESPU-2018: Latent fingerprint chemical profiling - identification of time-dependent metabolic markers.

              
        LFChemPro-CESPU-2018: Latent fingerprint chemical profiling - identification of time-dependent metabolic markers  
Principal Investigator: 
Diana Silva
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC_2018
Budget: 
3000€
Period covered: 
2018-2019
Abstract: 
Fingerprint analysis constitutes one of the main tools used in forensic evidence, allowing to identify the author of a certain fingerprint, tying him into a crime scene/object. Fingerprints result mainly from the deposition of human secretions on a surface, some of their constituents being already characterized. However, the composition of latent fingerprints varies over time due to chemical, biological and physical processes. Despite the studies on the variation over time of few constituents, a specific metabolic marker which time-dependent variation can provide further clues on the age of a fingerprint remains to be identified. The current project will primarily allow the identification of specific chemical markers, aiming the development of a protocol for the determination of the age of a latent fingerprint. Additionally, the interindividual variation (gender and race) of selected metabolic markers will be determined, potentiating its use in a discriminative analysis. Consequently, the knowledge on the chemical composition of aged fingerprints will be deepened, simultaneously paving the way for the development of new chemical methods for their age dating.
Research Team: 
Diana Silva, Ricardo Dinis, Nelson Gomes, Mariana Lopes, Jéssica Matos, Cláudia Ribeiro, Áurea Carvalho, Ana Santos,

NORTE-01-0145-FEDER-000035-INNOVMAR: Innovation and Sustainability in the Management and Exploitation of Marine Resource

              
        NORTE-01-0145-FEDER-000035-INNOVMAR: Innovation and Sustainability in the Management and Exploitation of Marine Resource  
Principal Investigator: 
Vítor Vasconcelos (vmvascon@ff.up.pt)
Leader Institution: 
CIIMAR – Interdisciplinary Centre of Marine and Environmental Research of	the	University of Porto
Funding entity: 
FCT
Program: 
North Portugal	Regional	Operational Programme	(NORTE	2020), under  the PORTUGAL 2020 Partnership Agreement, through	the	European Regional	Development	Fund (ERDF)
Budget: 
4.269.257,45€
Period covered: 
2016-2018
Abstract: 
INNOVMAR aims to develop and consolidate the main research lines of CIIMAR via the implementation of 3 RL / projects: NOVELMAR - Novel marine products with biotechnological applications, INSEAFOOD - Innovation and valorization of seafood products: meeting local challenges and opportunities and; ECOSERVICES - Assessing the environmental quality, vulnerability and risks for the sustainable management of NW coast natural resources and ecosystem services. The 3 RL will be implemented in a coherent manner, having multiple interconnections from the scientific and human resources points of view. NOVELMAR aims to increase knowledge on marine biodiversity (link with ECOSERVICES) to discover new natural products using a biorefiney approach producing zero residues (link with INSEAFOOD). Marine microorganisms that produce blooms will be analyzed and sampled (link with ECOSERVICES and INSEAFOOD), extracts will be valorized (link with INSEAFOOD). INSEAFOOD will focus on sustainable seafood production and management of related services (link with ECOSERVICES) and produce healthy and safe seafood items. ECOSERVICES will assess the ecological status of estuarine and coastal areas of the NW coast Portugal (link with NOVELMAR) and valorize biological resources and ecosystem services to improve food security, environmental sustainability and human wellbeing (link with INSEAFOOD).
Research Team: 
Maria Elizabeth Tiritan, Graça Casal, Maria Elimlia Sousa, Eugênia Pinto, Carla Fernandes, Honorina Cidade, Hassan Bousbaa, Marta Correia da Silva, Sara Cravo

PTDC/MAR-BIO/4694/2014: Navigating through marine-derived fungi: bioprospection and synthesis of bioactive secondary metabolites and analogues as chemotherapic agents.

              
        PTDC/MAR-BIO/4694/2014: Navigating through marine-derived fungi: bioprospection and synthesis of bioactive secondary metabolites and analogues as chemotherapic agents.   
Principal Investigator: 
Madalena Maria Magalhães Pinto (madalena@ff.up.pt) 
Leader Institution: 
Centro Interdisciplinar de Investigação Marinha e Ambiental (CIIMAR/CIMAR)
Funding entity: 
FCT 
Program: 
FEDER
Budget: 
196.704,00 €
Period covered: 
2016 to 2019
Abstract: 
The need for a continued search for new anti-infective and anticancer drugs is universally considered of great importance since many of the current drugs are insufficiently effective, highly toxic, and resistances may be developed. Our group has isolated two alkaloids, eurochevalierine, a potent inhibitor of the growth of human tumor cell lines [1], from the soil fungus Neosartorya pseudofischeri, and neofiscalin A from the soil and marine fungus N. siamensis with potente antibacterial activity [2]. Neofiscalin A exhibited also antibiofilm activity in both reference and multidrugs-resistant isolates, and is currently in the patent filing process. On the other hands, marine fungi derived xanthones, particularly yicathins and isomers were considered promising as chemotherapic agents [3]. So, eurochevalierine, neofiscalin A and yicathins can be considered very interesting models to discover new anti-infective and anticancer drugs to overcome drug-resistance that could represent innovative drug candidates. However, their availability to proceed to further investigations and their complex structures could limit their future as drug candidates. Our group has multi- and transdisciplinary skills, with a large experience in isolation and structure elucidation of natural products, synthesis, cellular and molecular biology and nanotechnology. Moreover, the synthesis of anti-infective [4,5] and antitumor [6-10] xanthone derivatives, particularly in multidrugs-resistant models [5,10], is the strength of our group. Therefore, this expertise can drive these natural products and derivatives with enough potency and selectivity to become new potential anti-infective/antitumor clinical candidates. However, our goal is not only to continue with the search for innovative marine-derived compounds but also to obtain derivatives/formulations of the most promising compounds to obtain more efficient analogues. To achieve these goals, five approaches will be undertaken: i) isolate other bioactive compounds from the marine-derived N. pseudofischeri and N. siamensis and other related strains; ii) synthesize eurochevalierine, neofiscalin A and yicathins to obtain more quantity of these products for in vitro and in vivo tests, iii) carry out successive molecular modifications in order to achieve more eficiente analogues, iv) investigate their potential as anti-infective agents, v) perform in vitro studies in tumor cell lines; vi) incorporate in nanoparticles in order to improve permeability and selectivity of the most promising compounds. To carry out approach i) isolation of the bioactive metabolites, we will culture the fungi N. pseudofischeri and N. siamensis, isolated from the marine environment, such as sponge or coral to obtain eurochevalierine, neofiscalin A, and structurally related alkaloids. Moreover, we will also perform a co-culture of these two fungi with marine bacteria for the purpose of increasing the quantity of the alkaloids eurochevalierine and neofiscalin A as well as to verify if the fungi also accumulate other bioactive metabolites when compared to the pure cultures. To carry out approaches ii)-iii) these alcaloids and yicathins will be synthesized and the (semi)synthesized derivatives will be used to obtain a library of structurally-related analogues with improved efficacy. These results will allow us to establish structure activity relationships (SAR), to contribute to define the important molecular features of anti-infective and antitumor activities, and consequently, the design of more potent molecules. To carry out approach iv), the new compounds will be screened for antimicrobial activity using the agar disk diffusion assay and/or the broth microdilution method. These compounds will be also tested for their synergy with antibiotics, against isolates presenting resistance towards those antimicrobials, using the broth microdilution Checkerboard method. Compounds showing antimicrobial activity will be then tested for their ability to inhibit the biofilm formation. To screen for compounds with anti-parasitic activity their effect will be evaluated for Cryptosporidium inhibitory growth via human epithelial cells lines. To carry out approach v), the compounds will be screened for their in vitro growth inhibitory activity in human tumor cell lines. The elucidation of the molecular mechanism of antitumor activity of the most promising compounds will be performed, particularly alterations in cellular proliferation, cell cycle, mitosis, and apoptosis, analysis of the effect on tumor imune microenvironment, and identification of protein targets. To carry out approach vi), the compounds with promising anti-infective/antitumor activity will be incorporated into biodegradable and biocompatible LNP formulations by several methods, and technological parameters will be studied. This approach will allow us to verify if LNP formulations can improve the bioavailability and/or activity/selectivity of the bioactive compounds.
Research Team: 
Hassan Bousbaa

PTDC/DTPFTO/2433/2014: MitoBOOST: A Next-Generation Therapeutics for Non-Alcoholic Fatty Liver Disease Based on Smart Antioxidant Delivery to Mitochondria.

              
        PTDC/DTPFTO/2433/2014: MitoBOOST: A Next-Generation Therapeutics for Non-Alcoholic Fatty Liver Disease Based on Smart Antioxidant Delivery to Mitochondria   
Principal Investigator: 
Leader Institution: 
Funding entity: 
FCT
Program: 
Budget: 
199.752,00 €
Period covered: 
2016-2019
Abstract: 
Research Team:

PTDC/AGR-TEC/2125/2014: Microbial Production of Bioactive Conjugated Linolenic Acid Isomers to Obtain Functional Ingredients.

              
        PTDC/AGR-TEC/2125/2014: Microbial Production of Bioactive Conjugated Linolenic Acid Isomers to Obtain Functional Ingredients.  
Principal Investigator: 
Luis Miguel Rodríguez Alcalá
Leader Institution: 
Universidade Católica Portuguesa (UCP)
Funding entity: 
FCT/MCTES (PIDDAC)
Program: 
Budget: 
199.507,00 euros
Period covered: 
2016 - 2019
Abstract: 
Conjugated linolenic acid (CLnA) isomers are promising compounds due to their chemical similarities with the healthy omega 3 and Conjugated linoleic acid (CLA) and bioactivity at lower doses than this former compound. Moreover, some bacteria from foods transform linolenic acid (ALA) into CLnA and improved the in vivo fatty acid (FA) composition of liver, adipose tissue and brain in animals. It opens promising possibilities in the elaboration of new functional products. However, according to the existing bibliography and the experience of the research team of this proposal, some questions need to be addressed: a) The number of identified CLnA producing bacteria is too low b) Lack of knowledge about pathways involved in the microbial production of CLA/CLnA c) Are CLnA isomers only produced as FFA? d) Can microbial CLnA isomers exert positive health effects? e) Stability of High CLnA products The PRO-TECh-CLNA project aims to cover these topics to bring cutting-edge knowledge and result into social and economic benefits.
Research Team: 
Luís Miguel Rodríguez Alcalá; Ana C. Freitas; Ana Maria Pereira Gomes; Armando Duarte; Catarina Simões; Dina Maria Ferreira Rodrigues; Francisco Alonso; João Carvalho; José Carlos Andrade; Pimentel, L. L.; Teresa Rocha-Santos; Virgínia M. F. Gonçalves

AntiCancerAromTerpen_CESPU_2017: Anticancer activity of aromatic plant extracts and main terpenoids, synergy with conventional chemotherapeutics.

              
        AntiCancerAromTerpen_CESPU_2017: Anticancer activity of aromatic plant extracts and main terpenoids, synergy with conventional chemotherapeutics.   
Principal Investigator: 
Sónia Marisa Rodrigues Machado (sonia.marisa@ipsn.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC 2017
Budget: 
6.000,00 €
Period covered: 
2017-2018
Abstract: 
Cancers have been the leading cause of death worldwide and there are any extremely effective and safe drugs to treat most of the cancers. Due to an increase demand for new anticancer agents, efficient, specific and less toxic; natural products offer opportunities for innovation in drug discovery. In fact, natural products play a major role in cancer prevention and treatment. A considerable number of antitumor agents currently used in the clinic are of natural origin. Among natural products, medicinal plants and specially aromatics and their essential oils (EO), composed of hundreds of lipophilic and low molecular compounds, represents an interesting source of new antitumor compounds. Recent studies have evaluated some EO globally for their anticancer activity however many EO and main terpenoids are yet to be study and characterized on their anticancer activity. Thus, this work will provide information about the potential effects of new compounds/extracts and their combination with commercial chemotherapeutic drugs.
Research Team: 
Hassan Bousbaa, Diana Ribeiro, Sandra Quinteira, Maria do Céu Sousa, Cláudia Ribeiro,

ANTIV_CESPU_2017: Antivirulence activity of natural extracts and synthetic compounds.

              
        ANTIV_CESPU_2017: Antivirulence activity of natural extracts and synthetic compounds.  
Principal Investigator: 
Paolo De Marco (paolo.demarco@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC 2017
Budget: 
3.500,00 €
Period covered: 
2017-2018
Abstract: 
Faced with the increasing lack of activity by antimicrobial agents, novel avenues of research need to be explored. In this project, we propose to test several synthetic compounds and natural plant extracts to see if they have the potential to inhibit some characteristics that augment the virulence of 3 common bacterial pathogens (Staphylococcus aureus, Staphylococcus epidermidis and Pseudomonas aeruginosa) and one fungal pathogen (Candida albicans). The compounds and extracts will be tested for their ability to hinder the formation of biofilm or to disrupt mature biofilm by the 4 species, or to inhibit the biosynthesis of pigments important for the virulent behaviour of S. aureus and P. aeruginosa. If any of these compounds shows any such ability, it may in the future be used as an adjuvant antimicrobial as it may lessen the virulence burden of the pathogen on the host and increase the chances of therapy to be successful and of the host’s immune system to counteract the infection.
Research Team: 
Sónia Marisa Machado, Sandra Quinteira

AZA-FR-NPS_CESPU_2017: Development of folate-receptor targeted nanoparticles formulations for azacitidine delivery.

              
        AZA-FR-NPS_CESPU_2017: Development of folate-receptor targeted nanoparticles formulations for azacitidine delivery.  
Principal Investigator: 
Maribel Teixeira (maribel.teixeira@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC 2017
Budget: 
4.500,00 €
Period covered: 
2017-2018
Abstract: 
Azacitidine is a potent inhibitors of DNA methylation used for the treatment of acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) and may also be effective in solid tumours. After administration, azacitidine undergoes spontaneous hydrolysis and deamination by cytidine deaminase leading to its degradation, this drug has short half-life and is unable to remain long enough to affect cancer cells. One reported strategy to protect azacitidine from enzymatic deamination is the incorporation in solid lipid nanoparticles. Folate-receptor targeted nanoparticles have been found to increase cellular uptake and cell cytotoxicity of several anticancer drugs and this approach will be studied for the first time for azacitidine in the present work. The aim of the present study is to develop and characterize azacitidine-loaded folate-receptor nanoparticle formulations in order to overcome azacitidine instability and enhance the therapeutic index of this drug.
Research Team: 
Maria Elizabeth Tiritan, Alexandra Costa, Carlos Maurício Barbosa,

ChiralDrugs_CESPU_2017: Chiral Bioactive Substances in the Environment.

              
        ChiralDrugs_CESPU_2017: Chiral Bioactive Substances in the Environment.  
Principal Investigator: 
Maria Elizabeth Tiritan (elizabeth.tiritan@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC 2017
Budget: 
6.000,00 €
Period covered: 
2017-2018
Abstract: 
Procedures for monitoring and controlling bioactive substances such as pharmaceuticals and illicit drugs in the environment are a challenge because of the high number and diversity of compounds. Most of these substances are chiral and excreted as non racemic and biodegraded enantioselectively. Most analytical methods used for monitoring these substances are not enantioselective and therefore neglects the enantiomeric fraction. Enantiomers may have different biological activities and should be quantified separately in occurrence studies for a correct risk assessment. The main objectives of this work are to evaluate the presence of these substances in Portuguese surface waters, influents and effluents from wastewater treatment plants (WWTP) and to estimate their consumption through previously validated enantioselective analytical methods. Enantioselective ecotoxicity using acute and chronic exposure tests with daphnia will also be evaluated.
Research Team: 
Cláudia Ribeiro, Cristina Couto, Ana Rita Ribeiro, Adrián Silva, Nuno Milhazes, Carlos Afonso, Carla Fernandes, Madalena Pinto, Valter Gonçalves, Ricardo Gonçalves, Maria Miguel Coelho

MicroFluiPro_CESPU_2017: Exploring microfluidics-based devices for next-generation probiotics encapsulation.

              
        MicroFluiPro_CESPU_2017: Exploring microfluidics-based devices for next-generation probiotics encapsulation.   
Principal Investigator: 
José Carlos Márcia Andrade (jose.andrade@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
PI4AC 2017
Budget: 
6.000,00 €
Period covered: 
2017-2018
Abstract: 
Gut bacteria such as Faecalibacterium prausnitzii and Akkermansia muciniphila have emerged from intestinal microbiome studies as candidates to the next generation of probiotics with great potential to prevent inflammatory and diet-related physiological disorders. However, these microorganism are difficult to handle because of their extreme sensitivity to traces of oxygen and so their successful use in food dietary supplements or drugs will depend on their stability and efficacy in humans. This project proposes to use microencapsulation to improve the viability and stability at atmospheric air and to achieve the intestinal delivery of these probiotics. Microfluidic-based techniques will be developed to encapsulate the model bacteria Bifidobacterium longum in a polysaccharide matrix supplemented with protective agents (antioxidants and prebiotics). Different types of microfluidic devices and formulations will be studied. The microcapsules developed will be characterized and tested for stability, viability and control delivery of the probiotic microorganism.
Research Team: 
Bruno Sarmento, Francisca Araújo, Vítor Seabra

PHARM4ADHER_CESPU_2017: Pharmaceutical intervention in promoting adherence to topical treatment of chronic dermatosis.

              
        PHARM4ADHER_CESPU_2017: Pharmaceutical intervention in promoting adherence to topical treatment of chronic dermatosis.   
Principal Investigator: 
Ana Isabel Pacheco Teixeira (ana.teixeira@iucs.cespu.pt)
Leader Institution: 
CESPU
Funding entity: 
CESPU
Program: 
HealthCare 2017
Budget: 
2.300,00 €
Period covered: 
2017-2018
Abstract: 
Dermatosis are high prevalent diseases that affect the quality of life. Most of the dermatological patients can be treated effectively and safely with topical medicines. However, low adherence to treatment leads to the clinical ineffectiveness of this therapeutic approach with implications not only from the point of view of patient health, but also economic on the health system due to direct and indirect costs. Adherence to topical treatment is often conditioned by factors specific for the topical administration of the medicines such as the difficulty of establishing posology instructions. The contribution of pharmaceutical intervention in posology counselling and in promoting adherence to dermatology treatment is insufficiently characterized. This study aims to identify the needs of educational intervention oriented to pharmacists and to evaluate the impact of a training activity on literacy about topical

treatment.
Research Team: 
Vera Almeida, Carmen Maribel Teixeira, Isabel Almeida, Viviana Vasconcelos, Tiago Torres, Sandra Ferreira, Lúcia Ferraz

Publications Highlights

Rocha S, Alves A, Antunes C, Fernandes P, Azevedo C, Casal G (2020). Characterisation of sphaeractinomyxon types (Cnidaria: Myxozoa) from marine and freshwater oligochaetes in a Portuguese estuary, with the demise of the endocapsa collective group. Folia Parasitologica. 2020 Feb;67. DOI: 10.14411/fp.2020.002.

Almeida V, Constante D, Leite A, Almeida IF, Rocha JC, Sá R, Teixeira M, Teixeira A. (2020) Influence of disease phase on embitterment and emotional dysregulation in psoriatic patients. Psychol Health Med. 2020 Mar 27:1-18. doi: 10.1080/13548506.2020.1741655.

Dinis-Oliveira RJ, Magalhães T. (2020). Abuse of Licit and Illicit Psychoactive Substances in the Workplace: Medical, Toxicological, and Forensic Aspects. J Clin Med. 2020 Mar 12;9(3):770. doi: 10.3390/jcm9030770.

Machado D, Almeida D, Seabra CL, Andrade JC, Gomes AM, Freitas AC. (2020). Uncovering Akkermansia muciniphila resilience or susceptibility to different temperatures, atmospheres and gastrointestinal conditions. Anaerobe. 2020 Feb;61:102135. doi: 10.1016/j.anaerobe.2019.102135.

Maia AS, Paíga P, Delerue-Matos C, Castro PML, Tiritan ME. (2020). Quantification of fluoroquinolones in wastewaters by liquid chromatography-tandem mass spectrometry. Environ Pollut. 2020 Apr;259:113927. doi: 10.1016/j.envpol.2020.113927.

Phyo YZ, Teixeira J, Tiritan ME, Cravo S, Palmeira A, Gales L, Silva AMS, Pinto MMM, Kijjoa A, Fernandes C. (2020). New chiral stationary phases for liquid chromatography based on small molecules: Development, enantioresolution evaluation and chiral recognition mechanisms. Chirality. 2020 Jan;32(1):81-97.

Andrade JC, Almeida D, Domingos M, Seabra CL, Machado D, Freitas AC, Gomes AM. (2020). Commensal Obligate Anaerobic Bacteria and Health: Production, Storage, and Delivery Strategies. Front Bioeng Biotechnol. 2020 Jun 5;8:550. doi: 10.3389/fbioe.2020.00550.

Pinto MMM, Fernandes C, Tiritan ME. (2020). Chiral Separations in Preparative Scale: A Medicinal Chemistry Point of View. Molecules. 2020 Apr 21;25(8):1931. doi: 10.3390/molecules25081931.

Tiritan ME, Pinto M, Fernandes C. (2020). Enantioselective Synthesis, Enantiomeric Separations and Chiral Recognition. Molecules. 2020 Apr 8;25(7):1713. doi: 10.3390/molecules25071713.

Barbosa J, Faria J, Garcez F, Leal S, Afonso LP, Nascimento AV, Moreira R, Queirós O, Carvalho F, Dinis-Oliveira RJ. (2020). Repeated Administration of Clinical Doses of Tramadol and Tapentadol Causes Hepato- and Nephrotoxic Effects in Wistar Rats. Pharmaceuticals (Basel). 2020 Jul 10;13(7):149. doi: 10.3390/ph13070149.

Hine PM, Morris DJ, Azevedo C, Feist SW, Casal G. (2020). Haplosporosomes, sporoplasmosomes and their putative taxonomic relationships in rhizarians and myxozoans. Parasitology. 2020 Sep 18:1-44. doi: 10.1017/S0031182020001717.

Rocha S, Rangel LF, Casal G, Azevedo C, Rodrigues P, Santos MJ. (2020). Involvement of sphaeractinomyxon in the life cycle of mugiliform-infecting Myxobolus (Cnidaria, Myxosporea) reveals high functionality of actinospore morphotype in promoting transmission. Parasitology. 2020 Oct;147(12):1320-1329. doi: 10.1017/S0031182020001043

Ribeiro C, Gonçalves R, Tiritan ME. (2020). Separation of Enantiomers Using Gas Chromatography: Application in Forensic Toxicology, Food and Environmental Analysis. Crit Rev Anal Chem. 2020 Jun 18:1-25. doi: 10.1080/10408347.2020.1777522.

Silva TJ, Casal G, Soares EC, Rocha S, Santos EL, Oliveira E, Azevedo C. (2020). Ultrastructure of intracytoplasmic Rickettsia-like infection of the gills of the teleost Archosargus probatocephalus (Sparidae) in northeastern Brazil. Rev Bras Parasitol Vet. 2020 Sep 28;29(3):e010020. doi: 10.1590/S1984-29612020067.

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Current Projects

OrthoAlign-PI-4RL-IINFACTS-2019: Orthodontic tooth movement: biomechanics involved on aligners appliances

DEBORA-PI-3RL-IINFACTS-2019: Disease, Emotion and Wellbeing: Regulated Organization of Action

CHIRALBIOACTIVE-PI-3RL-IINFACTS-2019: Chiral derivatives of xanthones and flavonoids: synthesis and biological activity evaluation.

IMPLDEBRIS-PI-3RL-IINFACTS-2019: Biological assessment of debris from oral implants.

AbuGenoToxTraTap-PI-3RL-IINFACTS-2019: Comparative study of the abuse and genotoxic potential deriving from sub-chronic exposure to therapeutic doses of tramadol and tapentadol

INSIGHT4ADHERE-PFT-IINFACTS-2019: Posological patterns, health literacy and psychosocial and clinical factors-implications for adherence to topical treatment in dermatology

MYCOBIOENV-PFT-IINFACTS-2019: Mycotoxins monitor and biological effects of environmental contaminants