Ultra-processed diet, systemic oxidative stress, and breach of immunologic tolerance.

In recent years, consumption of ultra-processed food around the world has been increasing. The nutritional profile of an ultra-processed diet is associated with the development of cellular alterations that lead to oxidative stress. The chronic prooxidative state leads to an environment that influences the proliferation, apoptosis, and signaling pathways of immune cells. Likewise, the decrease in the transcription factor NRF2, owing to exacerbated production of reactive oxygen species, leads to changes in immune function and response to infections. This review aims to analyze the connection between an ultra-processed diet, systemic oxidative stress, and immune tolerance, as a contribution to the scientific evidence on the impact of oxidative stress on health and the possible risk of infections-an important consideration in the association of eating pattern and the immune response.

Molecular mechanisms from insulin-mimetic effect of vitamin D: treatment alternative in Type 2 diabetes mellitus.

Diabetes mellitus is a complex and multifactorial disease with a global prevalence that exceeds 425 million people. Type 2 diabetes mellitus (T2DM) is characterized by a state of insulin resistance, which leads to metabolic alterations that aggravate the state of health of people. Vitamin D deficiency appears to play an important role in the triggering mechanisms of insulin resistance. In this review, an analysis is made of the biochemical mechanisms associated with the insulin-mimetic effect of vitamin D, its supplementation being a possible nutritional strategy for the T2DM treatment. The current scientific evidence is extensive regarding the dose of vitamin D used for an insulin-mimetic effect. However, clinical trials and systematic reviews show statistical differences on glucose, insulin, and glycated hemoglobin levels of patients with T2DM, associated with activation mechanisms of transcription factors related to genes of the glucide metabolism and the insulin receptor, and the regulation of intracellular Ca2+ insulin concentrations. Likewise, an indirect mechanism associated with antioxidant and anti-inflammatory effects has been shown that also leads to sensitivity to the insulin receptor. The use of a specific dose of vitamin D could be an effective alternative in the T2DM treatment, which would reduce the risk of complications derived from hyperglycemia.

Neuroprotective Effect Of Peptide Fractions from Chia (Salvia hispanica) on H2O2-Induced Oxidative Stress-Mediated Neuronal Damage on N1E-115 Cell Line.

Neurodegenerative diseases (ND) affect around a billion people worldwide. Oxidative stress plays a critical role in the activation of neuronal death mechanisms, implicated in the ND etiology. In the present research, the neuroprotective effect of the S. hispanica protein derivatives is evaluated, on neuronal cells N1E-115, after the damage induction with H2O2. From the protein-rich fraction of S. hispanica, three peptide fractions were obtained (3-5, 1-3 y < 1 kDa) and its neuroprotective effect on neuronal cells N1E-115 was evaluated, through the antioxidant pathway. In the toxicity assay, the peptide fractions showed viability greater than 90%. When N1E-115 cells were incubated with 100 µM H2O2, fractions 1-3 and < 1 kDa, presented cell viability of 66.64% ± 3.2 and 67.32% ± 2.8, respectively. Fractions 1-3 and < 1 kDa reduced by 41.73% ± 3.2 and 40.87% ± 2.8, respectively, the ROS production compared to the control, without significant statistical difference between both fractions (p < 0.05), while F3-5 kDa, only reduced the ROS production by 21.95% ± 2.4. The protective effect observed in the < 3 kDa fractions could be associated with its antioxidant activity, which represents an important study target.

Neuroprotective effect from Salvia hispanica peptide fractions on pro-inflammatory modulation of HMC3 microglial cells.

Neuroinflammation plays a critical role in the neurodegenerative disease's development, where microglia's act an important role in the mechanisms of response to neuronal damage. In the present research, the neuroprotective effect from Salvia hispanica peptide fractions on the proinflammatory modulation on HMC3 microglial cells was evaluated. From the enzymatic hydrolysis of a protein-rich fraction from S. hispanica seeds, three peptide fractions (<1, 1-3 and 3-5 kDa) were obtained, from which its neuroprotective and anti-inflammatory effect was determined on the production of proinflammatory mediators on HMC3 cells. The F1-3 kDa exhibited the greatest protective effect (79.04%), associated with the decrease in ROS cell production (51.3 ± 2.3%). Likewise, F1-3 kDa at 50 µg/ml, presented the highest reduction percentages of NO (33.1 ± 2.30%), TNFα (26.4 ± 1.1%) and IL6 (17.36 ± 1.6%). F1-3 kDa exhibited a neuroprotective effect in HMC3 cells associated with its antioxidant and anti-inflammatory effect. PRACTICAL APPLICATIONS: Currently, neurodegenerative diseases represent a global health problem, so the search for bioactive compounds with neuroprotective effect is useful in the prevention and treatment of this group of diseases. Peptide research with an effect on the proinflammatory and prooxidant mediator's reduction presents a potential application in the functional food's development aimed at the treatment of chronic diseases, that have oxidative stress and inflammation as their etiological factor. The present research adds to the scientific evidence of the potential benefits of bioactive peptides obtained from chia seeds. The results correlate with the main health benefits of whole chia seed in humans, such as antioxidant, anti-inflammatory, hypoglycemic and hypotensive capacity. This relationship is associated with the protein and peptide composition of chia, which increases its added value as food.

Effect of ultra-processed diet on gut microbiota and thus its role in neurodegenerative diseases.

The current dietary pattern is characterized by high consumption of ultra-processed foods and lower consumption of fiber and vegetables, environmental factors that are associated directly with the current incidence of chronic metabolic diseases. Diet is an environmental factor that influences the diversity and functionality of the gut microbiota, where dietary changes have a direct action on their homeostasis. The environment created in the gut by ultra-processed foods, a hallmark of the Western diet that are recognized as trigger factors for low-grade systemic inflammatory and oxidative changes, favor the development of neurodegenerative diseases (NDs). From a systematic search, the present review analyzes the relationship and effect of the current feeding pattern, with the dysregulation of the microbiota and its influence on the development of cognitive decline. Because diagnosis of NDs is usually at late stages, this review highlights the importance of a search for stricter public health strategies regarding access to and development of ultra-processed foods.

Peptides from Mucuna pruriens L., with protection and antioxidant in vitro effect on HeLa cell line.

BACKGROUND: Mucuna pruriens L. is a legume sown in the Mexican southeast with an important protein content. Studies have shown the potential use of by-products derived from Mucuna as a functional food because of the hypoglycemic and antihypertensive activities. Thus, this study aims to assess the antioxidant and protective effect of the peptide fractions derived from M. pruriens L., in vitro on the HeLa cell line. An enzymatic hydrolysis with pepsin-pancreatin was performed on the total protein concentrate, from which five peptide fractions were obtained. RESULTS: All protein derivatives from M. pruriens L., except F5-10 kDa, decreased the hydrogen peroxide production by more than 50%. The highest antioxidant activity was exhibited by F1-3 kDa, which lowered the intracellular reactive oxygen species by 207 ± 4.20%. No significant differences were found in the protective effects of the protein hydrolysate, F5-10 kDa, F3-5 kDa and F1-3 kDa relative to the N-acetylcysteine control group. CONCLUSION: This elucidated the potential action mechanisms of M. pruriens L. protein derivatives for future investigations and their role in the prevention and treatment of oxidative stress. © 2019 Society of Chemical Industry.

Effect of Enzymatic Digestion of Protein Derivatives Obtained from Mucuna pruriens L. on Production of Proinflammatory Mediators by BALB/c Mouse Macrophages.

Inflammation is considered to be a major risk factor for the pathogenesis of chronic non-communicable diseases. Macrophages are important immune cells, which regulate inflammation and host defense by secretion of proinflammatory mediators. Obtaining biopeptides by enzymatic hydrolysis adds value to proteins of vegetative origin, such as Mucuna pruriens L. The present study evaluated the effect of enzymatic digestion of protein derivatives obtained from M. pruriens L. on the production of proinflammatory mediators by BALB/c mouse macrophages. Five different molecular weight peptide fractions were obtained (F > 10, 5-10, 3-5, 1-3, and < 1 kDa, respectively). At 300 µg/mL, F5-10 kDa inhibited 50.26 and 61.00% NO and H2O2 production, respectively. Moreover, F5-10 kDa reduced the IL-6 and TNFα levels to 60.25 and 69.54%, respectively. After enzymatic digestive simulation, F5-10 kDa decreased the inflammatory mediators.