Project description:Efforts to eradicate TB are largely threatened by drug-resistant tuberculosis, particularly, multidrug-resistant tuberculosis (MDR-TB). It is imperative to find one or more specific biomarkers for diagnosing MDR-TB earlier and declining the incidence. Growing evidences have showed lncRNAs are widely expressed and take part in the genesis and development of many diseases, including tuberculosis. Therefore, to screen the differential lncRNAs among MDR-TB, drug-sensitive tuberculosis(DS-TB) and healthy controls(HCs) is a good strategy to acquire potential biomarkers for MDR-TB diagnosis and partly describe the mechanism of MDR-TB. Here, the present study aimed to investigate the differential expression profile of lncRNAs in serum among patients with MDR-TB ,DS-TB and HCs using lncRNA microarray
Project description:Multidrug resistance (MDR) frequently develops in cancer patients exposed to chemotherapeutic agents and is usually brought about by over-expression of P-glycoprotein (P-gp) which acts as a drug efflux pump. MiRNAome profiling using next-generation sequencing identified differentially expressed microRNAs (miRs) between parental K562 cells and MDR K562 cells (K562/ADM) induced by chronic adriamycin treatment.
Project description:Use of MePS2-modified siRNAs to target GRAM Domain Containing 1B (GRAMD1B), a novel protein in taxane resistance. Two groups of samples are included: 1. siControl treated HeyA8-MDR and 2. siGRAMD1B treated HeyA8-MDR. Gene expression profiles of siGRAMD1B-HeyA8-MDR cells were compared to that of siControl-HeyA8MDR cells.
Project description:<p>Gut microbiota plays a crucial role in resisting the invasion of pathogens, particularly multidrug-resistant (MDR) bacteria, which pose a significant threat to public health. While exercise offers numerous health benefits, its impact on host colonization resistance remains largely unclear. In this study, we demonstrate that moderate exercise significantly reduces gut colonization by methicillin-resistant Staphylococcus aureus (MRSA), a clinically important MDR pathogen. Moreover, we identify an understudied strain of the intestinal probiotic Dubosiella newyorkensis (L8) as a critical factor in mediating exercise-induced colonization resistance against MRSA. Mechanistically, L8 enhances the deprivation of fucose, a crucial carbon source essential for MRSA growth and pathogenicity. This process relies on the high binding affinity of pyruvate to the ILE257 site of the lactate dehydrogenase in L8. Overall, our work highlights the importance of moderate exercise in maintaining host colonization resistance and demonstrates the probiotic of L8 as a probiotic in protecting against MRSA colonization.</p>
Project description:To gain insight into the alterations of gene expression profile in the course of non-mutationally acquired resistance, we performed RNA-seq comparing MDR persister cells to MDR cancer cells.
