Multidrug Resistance Profiles and Resistance Mechanisms to ß-Lactams and Fluoroquinolones in Bacterial Isolates from Hospital Wastewater in Bangladesh.

Multidrug resistance (MDR) is one of the deadliest public health concerns of the 21st century, rendering many powerful antibiotics ineffective. The current study provides important insights into the prevalence and mechanisms of antibiotic resistance in hospital wastewater isolates. In this study, we determined the MDR profile of 68 bacterial isolates collected from five different hospitals in Dhaka, Bangladesh. Of them, 48 bacterial isolates were identified as Enterobacteriaceae. Additionally, we investigated the prevalence and distribution of five beta-lactam resistance genes, as well as quinolone resistance mechanisms among the isolates. The results of this study showed that 87% of the wastewater isolates were resistant to at least three different antibiotic classes, as revealed using the disc diffusion method. Resistance to ß-lactams was the most common, with 88.24% of the isolates being resistant, closely followed by macrolides (80.88% resistant). Polymyxin was found to be the most effective against wastewater isolates, with 29.41% resistant isolates. The most common ß-lactam resistance genes found in wastewater isolates were blaTEM (76.09%), blaCTX-M1 (71.74%), and blaNDM (67.39%). Two missense mutations in the quinolone resistance-determining region (QRDR) of gyrA (S83L and D87N) and one in both parC (S80I) and parE (S458A) were identified in all isolates, and one in parE (I529L), which had not previously been identified in Bangladesh. These findings suggest that hospital wastewater acts as an important reservoir of antibiotic-resistant bacteria wherein resistance mechanisms to ß-lactams and fluoroquinolones are obvious. Our data also emphasize the need for establishing a nationwide surveillance system for antibiotic resistance monitoring to ensure that hospitals sanitize their wastewater before disposal, and regulation to ensure hospital wastewater is kept away from community settings.

Nucleotide oligomerization domain polymorphism confers no risk to Guillain-Barré syndrome.

OBJECTIVES: Nucleotide oligomerization domain (NOD) proteins are cytoplasmic receptors that play important roles in host innate immune responses to pathogens by recognizing self or non-self-molecules and have been implicated in many autoimmune diseases including Guillain-Barré syndrome (GBS). The current study investigated whether NOD polymorphisms (NOD1-Glu266Lys, rs2075820, and NOD2- [Arg702Trp, rs2066844 and Gly908Arg, rs2066845]) contribute to ligand sensing and thus affect the susceptibility and/or severity of GBS. MATERIALS AND METHODS: We determined single nucleotide polymorphisms (SNPs) of NOD gene (NOD1-Glu266Lys and NOD2-[Arg702Trp; Gly908Ar]) in 303 patients with GBS and 303 healthy controls from Bangladesh by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and Sanger sequencing. Genotypes and allele frequencies were compared by performing chi-squared or Fisher's exact test with Yates' continuity correction. Serology for Campylobacter jejuni and anti-GM1 antibodies were determined by enzyme-linked immunosorbent assay (ELISA) techniques. RESULTS: NOD variants (NOD1-Glu266Lys and NOD2- [Arg702Trp; Gly908Arg]) were not associated with susceptibility and severity of GBS when compared with healthy controls and mild or severe form of disease. Moreover, NOD2 polymorphisms showed wild-type NOD2 C2104 and NOD2 G2722, respectively, with homozygous Arg/Arg genotype of NOD2 (Arg702Trp) polymorphism and homozygous Gly/Gly genotype of NOD2 (Gly908Arg) for all study subjects in Bangladesh. Homogenous distribution of NOD1 genotypes was observed in patients with axonal and demyelinating form of GBS. CONCLUSIONS: NOD variants confer no risk to the susceptibility and severity of GBS. Moreover, NOD2 polymorphism is rare or absent in patients with GBS as well as in the healthy individuals of Bangladesh.

Functional Profiling and Future Research Direction of Rice Bran Oil in Bangladesh.

Rice bran oil (RBO) has been demonstrated to affect complex malfunctioned conditions such as oxidative stress, hyperlipidemia, hyperglycemia, hypertension, inflammation, abnormal cell growth (cancer), ulceration, immune and cognitive modulation. This unique effect of RBO is due to the presence of well-balanced fatty acid composition and several bioactive compounds, γ- oryzanol (cycloartenyl ferulate, 24-methylenecycloartanyl ferulate, campesterol ferulate, and ß-sitosteryl ferulate), vitamin E (tocopherol and tocotrienol), phytosterols (ß-sitosterol, campesterol and stigmasterol) and other nutrients. The RBO composition of bioactive compounds varied geographically, thus the clear-cut mechanisms of action on complex disease cascades are still required. This review article summarized the RBO compositional profiling and compared it with other edible oils. This article also summarized Bangladesh RBO profiling and their proposed mechanism of action as well as the first line of defense in the prevention, management, and control of complex disease conditions. This review indicates how Bangladesh RBO increase their opportunity to be functional food for 21st century's ailment.

Fc-gamma IIIa-V158F receptor polymorphism contributes to the severity of Guillain-Barré syndrome.

OBJECTIVE: Guillain-Barré syndrome (GBS) is a rare, life-threatening disorder of the peripheral nervous system. Immunoglobulin G Fc-gamma receptors (FcγRs) mediate and regulate diverse effector functions and are involved in the pathogenesis of GBS. We investigated whether the FcγR polymorphisms FcγRIIa H/R131 (rs1801274), FcγRIIIa V/F158 (rs396991), and FcγRIIIb NA1/NA2, and their haplotype patterns affect the affinity of IgG-FcγR interactivity and influence GBS susceptibility and severity. METHODS: We determined FcγR polymorphisms in 303 patients with GBS and 302 ethnically matched healthy individuals from Bangladesh by allele-specific polymerase chain reaction. Pairwise linkage disequilibrium and haplotype patterns were analyzed based on D ́statistics and the genotype package of R statistics, respectively. Logistic regression analysis and Fisher's exact test with corrected P (Pc) values were employed for statistical comparisons. RESULTS: FcγRIIIa-V158F was associated with the severe form of GBS compared to the mild form (P = 0.005, OR = 2.24, 95% CI = 1.28-3.91; Pc = 0.015); however, FcγR genotypes and haplotype patterns did not show any association with GBS susceptibility compared to healthy controls. FcγRIIIa-V/V158 and FcγRIIIb-NA2/2 were associated with recent Campylobacter jejuni infection (P ≤ 0.001, OR = 0.36, 95% CI = 0.23-0.56; Pc ≤ 0.003 and P = 0.004, OR = 1.70, 95% CI = 1.18-2.44; Pc ≤ 0.012, respectively). Haplotype 1 (FcγRIIa-H131R- FcγRIIIa-V158F- FcγRIIIb-NA1/2) and the FcγRIIIb-NA2/2 genotype were more prevalent among anti-GM1 antibody-positive patients (P = 0.031, OR = 9.61, 95% CI = 1.24-74.77, Pc = 0.279; P = 0.027, OR = 1.62, 95% CI = 1.06-2.5, Pc = 0.081, respectively). INTERPRETATION: FcγR polymorphisms and haplotypes are not associated with susceptibility to GBS, though the FcγRIIIa-V158F genotype is associated with the severity of GBS.

Human leukocyte antigen-DQB1 polymorphisms and haplotype patterns in Guillain-Barré syndrome.

OBJECTIVE: The etiology of Guillain-Barré syndrome (GBS) remains enigmatic, although genetic and environmental factors are speculated to be associated with this autoimmune condition. We investigated whether polymorphisms and the haplotype structures of the human leukocyte antigen (HLA)-DQB1 gene relate to the autoimmune response to infection and affect the development of GBS. METHODS: HLA-DQB1 polymorphic alleles (*0201, *030x, *0401, *050x, *060x) were determined for 151 Bangladeshi patients with GBS and 151 ethnically matched healthy controls using sequence-specific polymerase chain reaction. Pairwise linkage disequilibrium (LD) and haplotype patterns were analyzed based on D ́statistics and the genotype package in R statistics, respectively. Association studies were conducted using Fisher's exact test and logistic regression analysis. The Bonferroni method was applied to correct for multiple comparisons, whereby the P-value was multiplied with the number of comparisons and denoted as Pc (Pc, P corrected). RESULTS: No associations were observed between HLA-DQB1 alleles and susceptibility to disease in the comparison between GBS patients and healthy subjects. Haplotype 9 (DQB1*0303-*0601) tended to be less frequent among patients with GBS than healthy controls (P = 0.006, OR = 0.49, 95% CI = 0.30-0.82; Pc = 0.06). Haplotype 5 (DQB1*0501-*0602) and the DQB1*0201 alleles were more frequent in the Campylobacter jejuni-triggered axonal variant of GBS (P = 0.024, OR = 4.06, 95% CI = 1.25-13.18; Pc = 0.24) and demyelinating subtype (P = 0.027, OR = 2.68, 95% CI = 1.17-6.17; Pc = 0.35), though these associations were not significant after Bonferroni correction. INTERPRETATION: This study indicates that HLA-DQB1 polymorphisms are not associated with susceptibility to GBS. In addition, these genetic markers did not influence the clinical features or serological subgroup in patients with C. jejuni-triggered axonal variant of GBS.

Correction to: Functional Polymorphism Located in the microRNA Binding Site of the Insulin Receptor (INSR) Gene Confers Risk for Type 2 Diabetes Mellitus in the Bangladeshi Population.

The original version of this article unfortunately contained a mistake in the co-author name. It should be Farhana Jahan instead of Farhan Jahan.

Functional Polymorphism Located in the microRNA Binding Site of the Insulin Receptor (INSR) Gene Confers Risk for Type 2 Diabetes Mellitus in the Bangladeshi Population.

Bangladesh has the second largest number of adults with diabetes in South Asia. Compelling evidence suggest that miRNAs contribute to the etiology of Type 2 diabetes mellitus (T2DM) by regulating many aspects of glucose homeostasis. Hence, we hypothesized that genetic polymorphisms in the diabetes-related miRNA target-binding sites could be associated with the risk of T2DM in Bangladesh. The reference Single nucleotide polymorphism (SNP) data from the Insulin Receptor (INSR) gene were downloaded from the ENSEMBL genome browser release 88 and further analyzed in silico for identifying SNPs with deleterious effect and clinical relationships. Further, case-control study using the microRNA-binding site polymorphism rs1366600 (T > C) located at the 3' UTR of the INSR gene was carried out in 217 T2DM patients and 237 healthy controls from Bangladesh. Genotyping was performed using the real time PCR based allele discrimination method. The results showed that the minor allele 'C' is associated with increased risk of T2DM [Odds ratio (OR) 1.87; 95% confidence intervals (CI) 1.28-2.74; P = 0.0010]. When we dissected our analysis to include the dominant model (CC + TC genotype against the TT genotype), we found that the CC and TC genotypes were associated with increased risk of T2DM in Bangladeshi population (OR 2.01; 95% CI 1.31-3.07; P = 0.0012). However, in recessive model (CC vs TT + TC); the effect was not statistically significant (OR 2.23; 95% CI 0.66-7.51; P = 0.1848). Stratification of our data based on the gender of the cases and controls showed similar degree of risk association with respect to different genotypes and alleles. Our study showed that the miRNA binding site polymorphism rs1366600 located at the 3'-UTR region of the INSR gene is associated with increased risk of T2DM in Bangladeshi individuals.