An update on the cell-free DNA-derived methylome as a non-invasive biomarker for coronary artery disease.

Cardiovascular diseases are the foremost contributor to global mortality, presenting a complex etiology and an expanding array of risk factors. Coronary artery disease characterized by atherosclerotic plaque build-up in the coronary arteries, imposes significant mortality and financial burdens, especially in low- and middle-income nations. The pathogenesis of coronary artery disease involves a multifaceted interplay of genetic, environmental, and epigenetic factors. Epigenetic regulation contributes to the dynamic control of gene expression without altering the underlying DNA sequence. The mounting evidence that highlights the pivotal role of epigenetic regulation in coronary artery disease development and progression, offering potential avenues for the development of novel diagnostic biomarkers and therapeutic targets. Abnormal DNA methylation patterns are linked to the modulation of gene expression involved in crucial processes like lipid metabolism, inflammation, and vascular function in the context of coronary artery disease. Cell-free DNA has become invaluable in tumor biology as a liquid biopsy, while its applications in coronary artery disease are limited, but intriguing. Atherosclerotic plaque rupture causes myocardial infarction, by depriving heart muscles of oxygen, releasing cell-free DNA from dead cardiac cells, and providing a minimally invasive source to explore tissue-specific epigenetic alterations. We discussed the methodologies for studying the global methylome and hydroxy-methylome landscape, their advantages, and limitations. It explores methylome alterations in coronary artery disease, considering risk factors and their relevance in coronary artery disease genesis. The review also details the implications of MI-derived cell-free DNA for developing minimally invasive biomarkers and associated challenges.

Genetic aberration analysis of mitochondrial respiratory complex I implications in the development of neurological disorders and their clinical significance.

Growing neurological diseases pose difficult challenges for modern medicine to diagnose and manage them effectively. Many neurological disorders mainly occur due to genetic alteration in genes encoding mitochondrial proteins. Moreover, mitochondrial genes exhibit a higher rate of mutation due to the generation of Reactive oxygen species (ROS) during oxidative phosphorylation operating in their vicinity. Among the different complexes of Electron transport chain (ETC), NADH: Ubiquinone oxidoreductase (Mitochondrial complex I) is the most important. This multimeric enzyme, composed of 44 subunits, is encoded by both nuclear and mitochondrial genes. It often exhibits mutations resulting in development of various neurological diseases. The most prominent diseases include leigh syndrome (LS), leber hereditary optic neuropathy (LHON), mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (MELAS), myoclonic epilepsy associated with ragged-red fibers (MERRF), idiopathic Parkinson's disease (PD) and, Alzheimer's disease (AD). Preliminary data suggest that mitochondrial complex I subunit genes mutated are frequently of nuclear origin; however, most of the mtDNA gene encoding subunits are also primarily involved. In this review, we have discussed the genetic origins of neurological disorders involving mitochondrial complex I and signified recent approaches to unravel the diagnostic and therapeutic potentials and their management.

Implication of gut microbes and its metabolites in colorectal cancer.

BACKGROUND: Colorectal cancer (CRC) is the third most common cancer with a significant impact on loss of life. In 2020, nearly 1.9 million new cases and over 9,35,000 deaths were reported. Numerous microbes that are abundant in the human gut benefit host physiology in many ways. Although the underlying mechanism is still unknown, their association appears to be crucial in the beginning and progression of CRC. Diet has a significant impact on the microbial composition and may increase the chance of getting CRC. Increasing evidence points to the gut microbiota as the primary initiator of colonic inflammation, which is connected to the development of colonic tumors. However, it is unclear how the microbiota contributes to the development of CRCs. Patients with CRC have been found to have dysbiosis of the gut microbiota, which can be identified by a decline in commensal bacterial species, such as those that produce butyrate, and a concurrent increase in harmful bacterial populations, such as opportunistic pathogens that produce pro-inflammatory cytokines. We believe that using probiotics or altering the gut microbiota will likely be effective tools in the fight against CRC treatment. PURPOSE: In this review, we revisited the association between gut microbiota and colorectal cancer whether cause or effect. The various factors which influence gut microbiome in patients with CRC and possible mechanism in relation with development of CRC. CONCLUSION: The clinical significance of the intestinal microbiota may aid in the prevention and management of CRC.

Teerakanchana's equation transcends over 12 other LDL-C quantification formulae in the North Indian population.

BACKGROUND: Over the last 3 decades, there has been a steady rise in global mortality due to cardiovascular diseases (CVDs). Therefore, timely diagnosis of CVDs is paramount. Low-Density Lipoprotein-cholesterol (LDL-C) in blood serum is one of the biomarkers for the risk assessment of CVDs, measured by direct assays and indirect approaches. The indirect method of LDL-C quantification by Friedewald's formula is more widely used in Indian clinical settings than direct assays due to its time and cost-effectiveness. However, its accuracy has been questioned for a long. We tried to find the formula that work in best agreement with the direct method. METHODS: Lipid profiling was done following a direct homogenous method (LDL-C_M) and LDL-C was calculated by 13 formula. The LDL-C values were categorized into groups based on TG. All the formula were statistically correlated with LDL-C_M. RESULTS: Teerakanchana's formula has shown a strong positive correlation (r = 0.914) and good agreement M (Lin's CCC = 0.929, CI = 0.918-0.939) with LDL-C_M, followed by Vujovic's formula (r = 0.903, Lin's CCC = 0.925, CI = 0.912-0.936). CONCLUSIONS: Teerakanchana and Vujovic's formula may replace Friedewald to quantify LDL-C in the public health care settings of the North Indian population.

Molecular markers in cancer.

Cancer remains a common health issue having significant socioeconomic burden worldwide. Despite the awareness campaigns, cancer cases continue to increase due to an aging population and lack of early detection biomarkers. Accordingly, much research has focused on non-traditional approaches which include novel imaging modalities and liquid biopsy. In addition, a considerable number of biomacromolecules as well as other biomarkers have been identified to further explore their potential use as diagnostic, prognostic and therapeutic tools. In this review, we provide an update on these new findings and explore their clinical application in cancer.

A non-invasive miRNA-based approach in early diagnosis and therapeutics of oral cancer.

Oral or mouth cancer is the 16th most common form of cancer among the world's topmost malignancies. Healthy lifestyle and control of known risk factors can reduce its incidences further. Patients succumb to oral cancer when diagnosed late and lack timely access to tertiary care. Molecular biomarkers might help in early detection of oral cancer. Recently, researchers have identified numerous microRNAs which play a crucial role in promoting and suppressing oral cancers. miRNAs are short non-coding RNA molecules (18-22 nucleotides) that play a pivotal role in regulating gene expression. Understanding the miRNA interplays in oral cancers could augment the development of potential diagnostic, prognostic, and therapeutic tools. Liquid biopsy- a non-invasive approach that has been used lately, allows the determination of miRNAs in biological fluids that play essential roles in tumor suppression and cancer promotion. Herein, we summarize an update on the role of miRNAs in the diagnosis and treatment of oral cancer.

Diagnostic and prognostic biomarkers in colorectal cancer and the potential role of exosomes in drug delivery.

Colorectal cancer (CRC) is the third most common cancer with the second most frequent cause of death worldwide. One fourth to one fifth of the CRC cases are detected at advance stage. Early detection of colorectal cancer might help in decreasing mortality and morbidity worldwide. CRC being a heterogeneous disease, new non-invasive approaches are needed to complement and improve the screening and management of CRC. Reliable and early detectable biomarkers would improve diagnosis, prognosis, therapeutic responses, and will enable the prediction of drug response and recurrence risk. Over the past decades molecular research has demonstrated the potentials of CTCs, ctDNAs, circulating mRNAs, ncRNAs, and exosomes as tumor biomarkers. Non-invasive screening approaches using fecal samples for identification of altered gut microbes in CRC is also gaining attention. Exosomes can be potential candidates that can be employed in the drug delivery system. Further, the integration of in vitro, in vivo and in silico models that involve CRC biomarkers will help to understand the interactions occurring at the cellular level. This review summarizes recent update on CRC biomarkers and their application along with the nanoparticles followed by the application of organoid culture in CRC.