Analyses of frequency profiles of markers on disease or drug-response related genes in diverse populations are important for the dissection of common diseases. We report the results of analyses of data on 405 SNPs from 75 such genes and a 5.2 Mb chromosome, 22 genomic region in 1871 individuals from diverse 55 endogamous Indian populations. These include 32 large (>10 million individuals) and 23 isolated populations, representing a large fraction of the people of India. We observe high levels of genetic divergence between groups of populations that cluster largely on the basis of ethnicity and language. Indian populations not only overlap with the diversity of HapMap populations, but also contain population groups that are genetically distinct. These data and results are useful for addressing stratification and study design issues in complex traits especially for heterogeneous populations.
Results suggest significant improvements in grading of fatty liver, liver span, measures of insulin resistance, and lipids with use of canola and olive oil compared with control oils in Asian Indians with NAFLD.
Epidemiological data in COVID-19 mortality indicate that men are more prone to die of SARS-CoV2 infection than women, but biologic causes for this sexual dimorphism are unknown. We discuss the prospective behavioral and biological differences between the sexes that could be attributed to this gender-based differentiation. The female sex hormones and the immune stimulatory genes including toll-like receptors, interleukins, micro-RNAs present on X-chromosome may impart lesser infectivity and mortality of the SARS-CoV-2 in females over males. The sex hormone estrogen interacts with the Renin-Angiotensin-Aldosterone System, one of the most critical pathways in COVID-19 infectivity, and modulate the vasomotor homeostasis. Testosterone on the contrary enhances the levels of the two most critical molecules angiotensin converting enzyme 2 (ACE2) and the transmembrane protease, serine-type 2 (TMPRSS2), transcriptionally and post-translationally, thereby increasing viral load and delaying viral clearance in men as compared to women. We propose that modulating sex hormones, either by increasing estrogen or anti-androgen, may be a therapeutic option to reduce mortality from SARS-CoV-2.
A cytosolic protein was purified from Escherichia coli BL21 that demonstrated potent antifungal activity against pathogenic strains of Aspergillus fumigatus, Aspergillus flavus, Aspergillus niger and Candida albicans. The MIC of purified protein from E. coli BL21 (PPEBL21) against Aspergillus species and C. albicans was 1.95-3.98 and 15.62 mg ml "1 , respectively. In vitro toxicity tests demonstrated no cytotoxicity of PPEBL21 to human erythrocytes up to the tested concentrations of 1250 mg ml "1. Amphotericin B was lethal to 100 % of human erythrocytes at a concentration of 37.5 mg ml "1 . The N-terminal amino acid sequence of PPEBL21 was found to be DLAEVASR, which showed 75 % sequence similarity with alcohol dehydrogenase of yeast. Mass fingerprinting by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry also substantiated these observations. The results suggested that E. coli BL21 might be an important bioresource of lead molecules for developing new peptide-based therapies for treating fungal infections.
Severe acute respiratory syndrome–coronavirus 2 (SARS-CoV-2) gains entry into the lung epithelial cells by binding to the surface protein angiotensin-converting enzyme 2. Severe SARS-CoV-2 infection, also known as coronavirus disease 2019 (COVID-19), can lead to death due to acute respiratory distress syndrome mediated by inflammatory immune cells and cytokines. In this review, we discuss the molecular and biochemical bases of the interaction between SARS-CoV-2 and human cells, and in doing so we highlight knowledge gaps currently precluding development of new effective therapies. In particular, discovery of novel treatment targets in COVID-19 will start from understanding pathologic changes based on a large number of autopsy lung tissue samples. Pathogenetic roles of potential molecular targets identified in human lung tissues must be validated in established animal models. Overall, this stepwise approach will enable appropriate selection of candidate therapeutic modalities targeting SARS-CoV2 and the host inflammatory response.
Background
There is need to identify novel markers that lead to an early occurrence of myocardial infarction (MI) in young South Asian population. This population has different risk profile as compared with others. Telomere length is known to be a marker of aging, and shorter telomeres have been reported in cardiovascular diseases (CVDs). We aimed to identify the association of telomere length in young nonsmokers and non-diabetic MI patients.
Methods
In a case–control study of 154 subjects (
n
= 77 cases (ages 18–45 years, non-diabetic, non-smoker patients with MI) and
n
= 77, age and sex matched healthy controls), DNA extraction from peripheral blood leukocytes was carried out and the relative telomere length was estimated by quantitative PCR. The results were adjusted with various demographic parameters like age, gender and body mass index (BMI). The correlation studies were carried out between telomere length, sex and type of MI.
Results
The relative telomere length was significantly shorter in young MI patients (31–45 years) compared with matched healthy controls (
p
< 0.0001). Interestingly, in a gender-based comparison, the female patients had shorter telomere length (
p
< 0.01).
Conclusion
In this pilot study, we found that the telomere length was shorter among young, non-diabetic, non-smoker MI patients as compared with similar young controls without MI in a South Asian cohort. Thus, telomere length may be a potential screening tool for young patients who don't have conventional risk factors. Larger studies are needed to confirm these findings.
High-altitude illnesses (HAIs) result from acute exposure to high altitude/hypoxia. Numerous molecular mechanisms affect appropriate acclimatization to hypobaric and/or normobaric hypoxia and curtail the development of HAIs. The understanding of these mechanisms is essential to optimize hypoxic acclimatization for efficient prophylaxis and treatment of HAIs. This review aims to link outcomes of molecular mechanisms to either adverse effects of acute high-altitude/hypoxia exposure or the developing tolerance with acclimatization. After summarizing systemic physiological responses to acute high-altitude exposure, the associated acclimatization, and the epidemiology and pathophysiology of various HAIs, the article focuses on molecular adjustments and maladjustments during acute exposure and acclimatization to high altitude/hypoxia. Pivotal modifying mechanisms include molecular responses orchestrated by transcription factors, most notably hypoxia inducible factors, and reciprocal effects on mitochondrial functions and REDOX homeostasis. In addition, discussed are genetic factors and the resultant proteomic profiles determining these hypoxia-modifying mechanisms culminating in successful high-altitude acclimatization. Lastly, the article discusses practical considerations related to the molecular aspects of acclimatization and altitude training strategies.
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