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Decker Oneil posted an update 6 months, 2 weeks ago
05). Exosomes significantly enhanced the viability of H2O2-induced cells and inhibited their apoptosis (P less then 0.05). In addition, RT-qPCR showed that in the H2O2-induced L6 cells, FABP3, CDKN1A, and TP53 were significantly upregulated, while CCNB1 was significantly downregulated (P less then 0.05). However, their expression levels were significantly reversed after treatment with miR-215-modified exosomes (P less then 0.05). These findings indicate that the miR-215-modified exosomes may exert protective effects against skeletal muscle injury through the miR-215/FABP3 pathway and regulate the expression of CDKN1A, CCNB1, and TP53.A major determinant of β-lactam resistance in methicillin-resistant Staphylococcus aureus (MRSA) is the drug insensitive transpeptidase, PBP2a, encoded by mecA. Full expression of the resistance phenotype requires auxiliary factors. Two such factors, auxiliary factor A (auxA, SAUSA300_0980) and B (auxB, SAUSA300_1003), were identified in a screen against mutants with increased susceptibility to β-lactams in the MRSA strain, JE2. auxA and auxB encode transmembrane proteins, with AuxA predicted to be a transporter. Inactivation of auxA or auxB enhanced β-lactam susceptibility in community-, hospital- and livestock-associated MRSA strains without affecting PBP2a expression, peptidoglycan cross-linking or wall teichoic acid synthesis. Both mutants displayed increased susceptibility to inhibitors of lipoteichoic acid (LTA) synthesis and alanylation pathways and released LTA even in the absence of β-lactams. The β-lactam susceptibility of the aux mutants was suppressed by mutations inactivating gdpP, which was previously found to allow growth of mutants lacking the lipoteichoic synthase enzyme, LtaS. Using the Galleria mellonella infection model, enhanced survival of larvae inoculated with either auxA or auxB mutants was observed compared with the wild-type strain following treatment with amoxicillin. These results indicate that AuxA and AuxB are central for LTA stability and potential inhibitors can be tools to re-sensitize MRSA strains to β-lactams and combat MRSA infections.Retinal vein occlusion (RVO) is an intractable eye disease that results in reduced visual acuity, associated with retinal ischemia, hemorrhage, and edema. RVO results in excessive ROS production in the retina, causing inflammation and retinal edema. A free radical scavenger, 4-(4-acetylpiperazin-1-yl)-2-(1H-imidazole-1-yl) aniline (NSP-116), has been reported to demonstrate antioxidative effects and prevent ROS production in the retina. Selleck Bromodeoxyuridine Therefore, NSP-116 may represent a useful drug for treating the pathological symptoms of RVO, such as retinal edema and ischemic symptoms. This study aimed to investigate the effects of NSP-116 in a murine model of RVO. We evaluated the thickness of the retinal layer and the size of the non-perfused area following the oral administration of NSP-116. Moreover, we used western blot analysis to examine the expression levels of vascular endothelial growth factor (VEGF) and tumor necrosis factor (TNF)-α, after NSP-116 administration, and examined the localization of 8-hydroxy-2′-deoxyguanosine (8-OHdG), by immunostaining. The findings indicate that NSP-116 suppressed retinal edema and expansion the non-perfused area by suppressing the increased expression of VEGF, TNF-α, and 8-OHdG in the murine RVO model. In conclusion, the oral administration of NSP-116 may serve as an effective pharmacological treatment for the pathological symptoms of RVO.Hibernation consists of alternating periods of reduced metabolism (torpor) with brief periods of metabolism similar to summer euthermia (arousal). The function of the innate immune system is reduced during hibernation, of which the underlying mechanisms are incompletely understood. Here, we studied neutrophil functionality during hibernation in Syrian hamsters. The inflammatory response to LPS-induced endotoxemia is inhibited in hibernation, partly mediated by reduced IL-6 production in early arousal. Furthermore, neutrophil pathogen binding, phagocytosis and oxidative burst is profoundly reduced in early arousal. Functionality of both summer and early arousal neutrophils was repressed in plasma from early arousal and mixed plasma from early arousal and summer euthermic, but restored by summer euthermic plasma, signifying that a plasma factor in early arousal inhibits TLR-recognition. Identification of the inhibiting factor may offer a target to modulate neutrophil function with relevance to (auto-)inflammatory diseases.The androgen receptor (AR) is expressed in prostate fibroblasts in addition to normal prostate epithelial cells and prostate cancer (PCa) cells. Moreover, AR activation in fibroblasts dramatically influences prostate cancer (PCa) cell behavior. Androgen deprivation leads to deregulation of AR downstream target genes in both fibroblasts and PCa cells. Here, we identified LIM domain only 2 (LMO2) as an AR target gene in prostate fibroblasts using ChIP-seq and revealed that LMO2 can be repressed directly by AR through binding to androgen response elements (AREs), which results in LMO2 overexpression after AR deactivation due to normal prostate fibroblasts to cancer-associated fibroblasts (CAFs) transformation or androgen deprivation therapy. Next, we investigated the mechanisms of LMO2 overexpression in fibroblasts and the role of this event in non-cell-autonomous promotion of PCa cells growth in the androgen-independent manner through paracrine release of IL-11 and FGF-9. Collectively, our data suggest that AR deactivation deregulates LMO2 expression in prostate fibroblasts, which induces castration resistance in PCa cells non-cell-autonomously through IL-11 and FGF-9.Our nationwide network of BME women faculty collectively argue that racial funding disparity by the National Institutes of Health (NIH) remains the most insidious barrier to success of Black faculty in our profession. We thus refocus attention on this critical barrier and suggest solutions on how it can be dismantled.The molecular pathology of multi-organ injuries in COVID-19 patients remains unclear, preventing effective therapeutics development. Here, we report a proteomic analysis of 144 autopsy samples from seven organs in 19 COVID-19 patients. We quantified 11,394 proteins in these samples, in which 5,336 were perturbed in the COVID-19 patients compared to controls. Our data showed that cathepsin L1, rather than ACE2, was significantly upregulated in the lung from the COVID-19 patients. Systemic hyperinflammation and dysregulation of glucose and fatty acid metabolism were detected in multiple organs. We also observed dysregulation of key factors involved in hypoxia, angiogenesis, blood coagulation, and fibrosis in multiple organs from the COVID-19 patients. Evidence for testicular injuries includes reduced Leydig cells, suppressed cholesterol biosynthesis, and sperm mobility. In summary, this study depicts a multi-organ proteomic landscape of COVID-19 autopsies that furthers our understanding of the biological basis of COVID-19 pathology.
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