Repository logo
 
Profile Picture
Person

Dias, Tânia

Metadata only
C11D-CE16-7D36
0000-0002-2336-8006

Filters

2012 - 20196
Reset filters

Settings

Search Results

Now showing 1 - 6 of 6
  • Bioactive Substances from Medicinal Plants for Metabolic Disorders
    Publication . Silva, Branca M.; Oliveira, Pedro F.; Alves, Marco G; Dias, Tânia R.
    Metabolic disorders, particularly Diabetes Mellitus (DM), are major causes of death worldwide. In fact, the world statistics for DM are alarming: this epidemic disease kills one person every six seconds, being the fourth cause of death. Besides the health issues, the costs associated with DM, and its co-morbidities, are massive and the pressure in National Health Care Systems is dramatically increasing. Patients with DM, particularly those with type 2 diabetes (T2D), are primarily advised to change their dietary habits and exercise regime. However, as the disease progresses and becomes more severe, conventional drugs are prescribed. Most of these patients need polypharmacological therapy and though progresses have been made, efforts are mandatory in a search for a “perfect” antidiabetic drug. [...]
    2017Journal article Open access Show more
  • L-Theanine promotes cultured human Sertoli cells proliferation and modulates glucose metabolism
    Publication . Dias, T. R.; Bernardino, Raquel; Alves, Marco G; Silva, Joaquina; Barros, Alberto; Sousa, Mário; Casal, Susana; Silva, Branca M.; Oliveira, P.F.
    L-Theanine is the major free amino acid present in tea (Camellia sinensis L.). The effects of several tea constituents on male reproduction have been investigated, but L-theanine has been overlooked. Sertoli cells (SCs) are essential for the physical and nutritional support of germ cells. In this study, we aimed to investigate the ability of L-theanine to modulate important mechanisms of human SCs (hSCs) metabolism, mitochondrial function and oxidative profile, which are essential to prevent or counteract spermatogenesis disruption in several health conditions.
    2019Journal article Open access Show more
  • 8-(3-phenylpropyl)-1,3,7-triethylxanthine is a synthetic caffeine substitute with stronger metabolic modulator activity
    Publication . Carrageta, David F; Dias, Tânia R.; Jarak, Ivana; Alves, Marco G; Oliveira, P.F.; Walt, Mietha Van Der; Terre'Blanche, Gisella; Monteiro, Mariana P.; Silva, Branca M.
    Caffeine is one of the most worldwide consumed methylxanthines. It is well-known for its thermogenic and cell metabolism modulating effects. Based on methylxanthines' chemical structure, 8-(3-phenylpropyl)-1,3,7-triethylxanthine (PTX) is a novel adenosine antagonist with higher receptor affinity than caffeine. Therefore, we hypothesized that PTX metabolic effects could be stronger than those of caffeine. For that purpose, murine 3T3-L1 cells were cultured in the presence of increasing doses of PTX or caffeine (0.1, 1, 10 and 100 μM) for 24 h. Cytotoxicity was evaluated by reduction of tetrazolium salt (MTT) and lactate dehydrogenase (LDH) release. Cell metabolites released to the culture medium were identified and quantified by proton nuclear magnetic resonance (1H NMR). Cellular oxidative profile was also evaluated. Our results showed that PTX displayed no signs of cytotoxicity at all studied concentrations. When compared with caffeine, PTX increased glucose, pyruvate, and glutamine consumption, as well as lactate, alanine, and acetate production. Additionally, PTX decreased protein oxidation, thus protecting against oxidative stress-induced damage. These results illustrate that PTX is a stronger and less cytotoxic caffeine substitute with potential applications as metabolic modulator and a good candidate for novel drug design.
    2018Journal article Open access Show more
  • Effect of white tea on the reproductive function of diabetic or prediabetic individuals
    Publication . Dias, Tânia Isabel Rodrigues Amaral; Oliveira, Pedro Fontes; Silva, Branca Maria Cardoso Monteiro da; Casal, Susana
    The prevalence of diabetes mellitus (DM) has been increasing in young men worldwide. Patients with DM have a dysfunction on insulin secretion and/or insulin action, resulting in hyperglycemia. Insulin dysregulation affects glucose homeostasis in the body, having a deleterious impact on male fertility. Sertoli cells (SCs) are essential for the maintenance of male reproductive potential as they provide the physical and nutritional support that allows the differentiation of germ cells into fully competent spermatozoa. SCs function highly relies on glucose metabolism, which is their preferred substrate. Many diabetic patients are subfertile or infertile due to altered SCs function, impaired spermatogenesis and poor sperm quality. The primary strategy to counteract DM and its complications includes nutritional changes and physical activity. However, these interventions are usually unsuccessful alone and need to be complemented with medication. Still, the efficacy of conventional drugs is limited, they are expensive and have several secondary effects. In recent years, natural products, including tea and its components, demonstrated promising antioxidant and antidiabetic properties. Besides, the treatment of prediabetes can be an effective approach as it can occur up to 10 years before the progression of the disease to a more severe state. In this research project, we aimed to unravel the effects of white tea (WTEA) on male reproductive function and its protective role against reproductive dysfunctions induced by prediabetes. Further, we aimed to investigate if the effects of WTEA are due to a combined effect of all WTEA components or to a predominant effect of one of its most bioactive components. WTEA is the rarest and less studied type of tea, but it presents a potent antioxidant potential due to its high catechin content. Through proton nuclear magnetic resonance (1H-NMR), we verified that this type of tea is particularly rich in caffeine, epigallocatechin gallate (EGCG) and L-theanine. Using an in vitro model of rat SCs or human SCs (hSCs) we evaluated the effects of WTEA extract (0.5 mg/mL) and its main bioactive compounds (caffeine, EGCG and L-theanine) on cells metabolism, mitochondrial functionality and oxidative profile. WTEA extract modulated rat SCs metabolism and stimulated the production of lactate, which is essential for germ cells survival. Supplementation of hSCs culture media with 50 μM of caffeine, EGCG, or L-theanine for 24 hours induced alterations in hSCs metabolism that are important for the improvement of male reproductive potential. It resulted in an increase or maintenance of lactate production, showing a protective role against oxidative damages. However, at 50 μM, these compounds also induced some alterations in hSCs proliferation and mitochondrial functionality that may compromise hSCs function. The WTEA extract (0.5 mg/mL) showed a better improvement on SCs, highlighting the importance of the combined effect of all the tea components for its beneficial effect. We also conducted ex vivo studies using rat epididymal spermatozoa to evaluate the potential of WTEA extract (0.5 mg/mL or 1 mg/mL) and the three selected components as an additive for a sperm storage medium at room temperature for short periods. In these studies, the concentrations of caffeine (71 μg/mL) EGCG (82 μg/mL) and L-theanine (19 μg/mL), were selected based on their concentration in the WTEA extract. Sperm viability decreases over time in refrigerated samples, thus in certain cases the short-term storage at room temperature can be advantageous, such as for samples transport or assisted reproductive technology. These studies allowed us to conclude that the WTEA extract (especially at 1 mg/mL) was a better additive to the sperm storage medium at room temperature than each of the components alone, as it kept spermatozoa viability for 3 days equivalently to values obtained at the collection time. Although the combination of the three selected components together showed a higher improvement in spermatozoa viability, it also stimulated protein oxidation, supporting the beneficial combined effect of all the components constituting the WTEA extract. This led us to study the in vivo effect of a regular consumption of WTEA on the reproductive function of a rat model of prediabetes. The prediabetic rats showed alterations in the testicular and epididymal metabolism, resulting in poor sperm quality. WTEA ingestion by prediabetic rats for two months prevented many of the metabolic dysfunctions induced by the disease in the testis and epididymis, resulting in the improvement of sperm motility and viability. Our results indicate that WTEA regular consumption can be a cost-effective strategy to improve prediabetes-induced reproductive dysfunctions, paving the way for WTEA to be used for the development of new antioxidant therapies for the improvement of male fertility.
    2019-10Doctoral thesis Open access Show more
  • Evaluation of cell death markers and reproductive parameters in models of diabetes mellitus
    Publication . Dias, Tânia Isabel Rodrigues Amaral; Oliveira, Carlos Pedro Fontes; Lopes, Graça
    Diabetes mellitus (DM) represents one of the greatest threats to modern global health and its incidence is rapidly rising worldwide. It describes a metabolic disorder characterized by hyperglycaemia resulting from defective insulin secretion, resistance to insulin action, or both. There are two types of DM, type-1 DM (T1DM) and type-2 DM (T2DM), both associated with male infertility. T1DM is associated with insulin deprivation and although the overall in vivo effects in the reproductive function is well known, there is a lack of studies concerning about the insulin control over the physiological functions of cells from the reproductive system. Importantly, the in vivo studies are often focused after the disease is fully establish, but it is known that a prediabetic state, which is characterized by insulin resistance, precedes the development of DM, especially T2DM. With our work, we aimed to further investigate the association between DM and male infertility by analyzing several apoptotic markers and reproductive parameters. To do so, we simulated type 1 DM in cultured rat Sertoli cells and analyzed the mRNA and protein expression levels of several cellular markers involved in the mitochondrial apoptotic pathway. We also developed an animal model of prediabetes to evaluate the effect of this pathological state in the reproductive parameters as well as in the mitochondrial apoptotic pathway. Our results lead us to suggest that insulin interferes with the interaction between pro and anti-apoptotic proteins. As the interaction of these proteins decide the cell fate and exert a strict control over the apoptotic signaling, insulin has a key role in the maintenance of the spermatogenesis. Our rat model shared many of the clinical and metabolic characteristics of the prediabetic state observed in humans such as glucose resistance and progression from normoglycaemia/normoinsulinemia to moderate hyperglycaemia/hyperinsulinemia due to food intake. This prediabetic state induced important alterations in cauda epididymis spermatozoa morphology showing that these animals may develop subfertility or fertility problems. The apoptotic signalling in cauda epididymis spermatozoa of the high-energy (HED) fed animals presented lower Bax mRNA levels and lower cytC protein levels although the apoptotic endpoint, caspase-3 activity, was not altered. This suggests that the apoptotic process may be controlled by other mechanisms rather than the mitochondrial pro-apoptotic proteins, such as the anti-apoptotic cellular systems. Those two experimental models led us to conclude that the subfertility/infertility problems caused by DM may be mediated by insulin, which has an important effect in the regulation of the interaction between pro and anti-apoptotic proteins and special attention must be taken in the prediabetic state where crucial alterations in rat spermatozoa occurred. Due to the rising incidence and associated complications of DM and male infertility it is crucial to further investigate in these two systems to isolate possible mechanisms and evaluate the overall effects as a strategy to develop possible therapeutics.
    2012-06Master thesis Open access Show more
  • Implications of epigallocatechin-3-gallate in cultured human Sertoli cells glycolytic and oxidative profile
    Publication . Dias, Tânia R.; Alves, Marco G; Silva, Joaquina; Barros, Alberto; Sousa, Mário; Casal, Susana; Silva, Branca M.; Oliveira, Pedro F.
    Sertoli cells are crucial for the success of spermatogenesis, which is the biological process that ensures male fertility. These cells present high metabolic rates, being often subjected to high oxidative stress levels that, if uncontrolled, may compromise male fertility. Since the most abundant tea catechin, epigallocatechin-3-gallate (EGCG), has demonstrated a potent preventive activity against oxidative stress, we have evaluated its effect at concentrations of 5 and 50μM, on the metabolism, mitochondrial functionality and oxidative profile of human Sertoli cells (hSCs). While, the highest concentration of EGCG (50μM) increased glucose and pyruvate consumption, it decreased the conversion of pyruvate to alanine to sustain a regular lactate production. However, despite maintaining Krebs cycle functionality, EGCG (50μM) decreased mitochondrial membrane potential of hSCs, which could compromise the normal rates of ATP production. Interestingly, oxidative damages to proteins and lipids decreased in this experimental group, which may be valuable for the nutritional support of spermatogenesis.
    2017Journal article Open access Show more