Molecular and Epigenetic Basis of Extracellular Vesicles Cell Repair Phenotypes in Targeted Organ-specific Regeneration.

Extracellular vesicles (EVs), which are released by most of the cells, constitute a new system of cell-cell communication by transporting DNA, RNA, and proteins in various vesicles namely exosomes, apoptotic bodies, protein complexes, high-density lipid (HDL) microvesicles, among others. To ensure accurate regulation of somatic stem cell activity, EVs function as an independent metabolic unit mediating the metabolic homeostasis and pathophysiological of several diseases such as cardiovascular diseases, metabolic diseases, neurodegenerative diseases, immune diseases, and cancer. Whist examining the EV biomolecules cargos and their microenvironments that lead to epigenetic alteration of the cell in tissue regeneration, studies have gained further insights into the biogenesis of EVs and their potential roles in cell biology and pathogenicity. Due to their small size, non-virulence, flexibility, and ability to cross biological barriers, EVs have promising therapeutic potentials in various diseases. In this review, we describe EV's mechanism of action in intercellular communication and transfer of biological information as well as some details about EVinduced epigenetic changes in recipient cells that cause phenotypic alteration during tissue regeneration. We also highlight some of the therapeutic potentials of EVs in organ-specific regeneration.

A Two Years Retrospective Study on Epidemiology Characteristics of Sexually Transmitted Infections From Malaysian Private Healthcare Perspective

@#Introduction: Sexually transmitted Infections (STIs) are major public health concerns reaching an all-time high, globally. In Malaysia data on the prevalence of STIs remains scarce which limits the understanding of STI transmission dynamics and the role of interventions in the control of STIs. The aim of this study is to determine the epidemiology characteristics of STIs mainly from Malaysian private healthcare institutions. Method: A two years (2016 and 2017) retrospective review was conducted on 160 multiplex RT-PCR STI reports from KPJ hospitals, Malaysia. Results: There were 65 (40.6 %) patients positive STIs [male: 21/65 (32.3 %); female: 44/65 (67.7 %)]. The STIs was prevalent among young adults (56/65; 86.2 %) from the central region (46/65; 70.8 %). Females had 1.7 times greater risk to develop STI (20 per 100) and two times higher chance to have multiple STIs (10 per 100) in comparison to male. The single STIs was caused mainly by U. parvum (N=17). In males, U. urealyticum (N=3) and C. trachomatis (N=3) were prevalent, while U. parvum (N=15) was prevalent in females. There were 19 dual infections of STIs which were commonly caused by U. parvum and M. hominis (N=5). There were seven STIs cases caused by three pathogens concurrently including U. urealyticum, U. parvum and C. trachomatis (N=2) and U. urealyticum, M. genitalium and C. trachomatis (N=2). Females from urban communities have higher risk in comparison to males for developing multiple STIs. Conclusion: This study provides an imperative platform for temporal trends of STIs in Malaysia which reflects the health status of certain populations that warrant immediate public health interventions.

Effects of proton pump inhibitor on the human gut microbiome profile in multi-ethnic groups in Singapore

INTRODUCTION@#The objectives of this study were to examine the effects of ethnicity, gender and a proton pump inhibitor (PPI), omeprazole, on the human gut microbiome. PPIs are commonly used for the treatment of acid-related disorders. We hypothesised that PPI therapy might perturb microbial communities and alter the gut microbiome.@*METHODS@#Healthy subjects of Chinese (n = 12), Malay (n = 12) and Indian (n = 10) ancestry, aged 21-37 years, were enrolled. They provided a baseline stool sample (Day 1) and were then given a course of omeprazole at therapeutic dose (20 mg daily) for seven days. Stool samples were collected again on Day 7 and 14 (one week after stopping omeprazole). Microbial DNA was extracted from the stool samples, followed by polymerase chain reaction, library construction, 16S rRNA sequencing using Illumina MiSeq, and statistical and bioinformatics analyses.@*RESULTS@#The findings showed an increase in species richness (p = 0.018) after omeprazole consumption on Day 7, which reverted to baseline on Day 14. There were significant increases in the relative abundance of Streptococcus vestibularis (p = 0.0001) and Veillonella dispar (p = 0.0001) on Day 7, which diminished on Day 14. Faecalibacterium prausnitzii, Sutterella stercoricanis and Bacteroides denticanum were characteristic of Chinese, Malays and Indians, respectively. Lactobacillaceae and Bacteroides xylanisolvens were the signature taxa of male and female subjects, respectively.@*CONCLUSION@#The study demonstrated alterations in the gut microbiome following omeprazole treatment. This may explain the underlying pathology of increased risk of Clostridium difficile infections associated with omeprazole therapy.

Technology Advancement Enabling the Link of Gut Microbiota with Obesity and Metabolic Disorder / Jurnal Sains Kesihatan Malaysia

Obesity is a growing epidemic due to an accelerated phase of industrialization and urbanization with the overfed people now outnumbered the underfed. It is the major public health problem with a lot of research interest as it is associated with many complicated chronic disorders such as type-2 diabetes, cardiovascular diseases (CVD) and cancers. A global estimation of 2.8 million deaths per year is due to obesity and there are tremendous on-going efforts to identify hosts and environmental factors that infl uence the cause and pathogenesis of obesity. Concerted efforts from different research groups had successfully shown that obese subjects have altered composition of gut microbiota and transplantation of this microbiota infl uences body weight in the germ-free recipient mice. The advancement of technology had made possible the study of gut microbiota which was unculturable for better understanding of their impact to human health. Rapid deep sequencing of DNA at reasonable cost through various options of platforms followed by data analysis using robust bioinformatic tools are an important way of analysing the gut microbiome. Here we review the role of gut microbiota which modulates host’s metabolic functions and gene expression, facilitating the extraction and storage of energy from the ingested dietary substances and leading to body-weight gain. We will discuss on the different techniques used, focusing on the high-defi nition technologies for the determination of the composition, function and ecology of gut microbiota. This allows the appropriate selection of platform which becomes the key for success of subsequent research.