12 research outputs found
Functional changes in hippocampal synaptic signaling in offspring survivors of a mouse model of intrauterine inflammation
Abstract Background Recent evidence suggests that exposure to intrauterine inflammation causes acute fetal brain injury and is linked to a spectrum of neurobehavioral disorders. In a rodent model of intrauterine inflammation induced by lipopolysaccharide (LPS) exposure in utero, activated microglia can be detected in the hippocampus of offspring survivors, as late as 60 days postnatal (DPN). Given that the hippocampus is important for learning and memory, these results suggest that in utero inflammation underlies long-term cognitive deficits observed in children/survivors. Methods An established mouse model of LPS-induced intrauterine inflammation was used to study hippocampal function from offspring at 44–59 DPN. Microgliosis was examined at 45 DPN. Extracellular field recordings of synaptic transmission were performed on acute hippocampal slices. Results LPS offspring mice displayed persistent microglial activation and increased CA3–CA1 excitatory synaptic strength, which can be explained in part by an increase in the probability of glutamate release, and reduced long-term synaptic potentiation compared to control mice. Conclusions These results offer a mechanistic explanation for the cognitive and behavioral deficits observed in survivors of preterm birth caused by intrauterine inflammation
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Long-Range HIV Genotyping Using Viral RNA and Proviral DNA for Analysis of HIV Drug Resistance and HIV Clustering
The goal of the study was to improve the methodology of HIV genotyping for analysis of HIV drug resistance and HIV clustering. Using the protocol of Gall et al. (A. Gall, B. Ferns, C. Morris, S. Watson, M. Cotten, M. Robinson, N. Berry, D. Pillay, and P. Kellam, J Clin Microbiol 50:3838–3844, 2012, doi:10.1128/JCM.01516-12), we developed a robust methodology for amplification of two large fragments of viral genome covering about 80% of the unique HIV-1 genome sequence. Importantly, this method can be applied to both viral RNA and proviral DNA amplification templates, allowing genotyping in HIV-infected subjects with suppressed viral loads (e.g., subjects on antiretroviral therapy [ART]). The two amplicons cover critical regions across the HIV-1 genome (including pol and env), allowing analysis of mutations associated with resistance to protease inhibitors, reverse transcriptase inhibitors (nucleoside reverse transcriptase inhibitors [NRTIs] and nonnucleoside reverse transcriptase inhibitors [NNRTIs]), integrase strand transfer inhibitors, and virus entry inhibitors. The two amplicons generated span 7,124 bp, providing substantial sequence length and numbers of informative sites for comprehensive phylogenic analysis and greater refinement of viral linkage analyses in HIV prevention studies. The long-range HIV genotyping from proviral DNA was successful in about 90% of 212 targeted blood specimens collected in a cohort where the majority of patients had suppressed viral loads, including 65% of patients with undetectable levels of HIV-1 RNA loads. The generated amplicons could be sequenced by different methods, such as population Sanger sequencing, single-genome sequencing, or next-generation ultradeep sequencing. The developed method is cost-effective—the cost of the long-range HIV genotyping is under $140 per subject (by Sanger sequencing)—and has the potential to enable the scale up of public health HIV prevention interventions
The Effects Of Protease-Activated Receptors 1 And 4 In Human Platelet Activation And Inflammation
Category: Basic Sciences/Biologics Introduction/Purpose: Tendon injuries occur frequently and cost billions of health care dollars annually. Recently, there has been an increase in the use of platelet-rich plasma (PRP) to treat tendon injuries. However, the efficacy of PRP treatment is controversial due to inconsistent results from human clinical trials. It is thought that variations in PRP preparation contribute to these inconsistencies. Specifically, platelets in PRP contain pro-angiogenic (e.g. VEGF) or anti-angiogenic (e.g. endostatin) factors, which may differentially affect the healing of tendon injuries. It is known that these factors are selectively released after platelet activation by specific receptors. Therefore, in this study we investigated the effect of protease-activated receptors 1 and 4 (PAR1 and PAR4) in platelet activation and inflammation. Methods: Platelet preparation – Human blood was obtained from 12 healthy donors and 9 ml of blood was mixed with 1 ml of 3.8% sodium citrate and centrifuged at 500g for 10 min. Then, the supernatant (PRP) without the buffy coat was centrifuged at 1000g for 10 min and the resulting pellet was washed in Tyrodes-HEPES buffer and centrifuged for 10 min at 1000g. Finally, platelets in the pellet was suspended in Tyrodes-HEPES buffer and used in experiments. Platelet activation – About 100 μl of platelet from above was activated with 5 μl 1 mM PAR1-activating peptide (PAR1-AP) or PAR4-activating peptide (PAR4-AP) at 25°C for 10 min. Then, the mixture was centrifuged at 1000g for 10 min, and the levels of VEGF, endostatin, IL-1RA and HMGB-1in the supernatant was determined by ELISA. Platelets without activators were used as controls. Results: PAR1 induced angiogenic effects in human platelets. PAR1 activated platelets released 3 times more VEGF than when activated with PAR4 (Fig. 1A). However, PAR4 activated platelets released 7 times more endostatin than the PAR1 activated platelets (Fig. 1B). Further, PAR1 induced anti-inflammatory effects in human platelets; it did not change IL-1R-A (Fig. 2A) but decreased HMGB-1 levels (Fig. 2B). In contrast, PAR4 stimulated inflammatory effects in human platelets by lowering IL-1-RA and increasing HMGB-1 levels. Conclusion: Our findings indicate that PAR1 induces angiogenetic and anti-inflammatory effects in human platelets, while PAR4 has anti-angiogenetic and inflammatory effects. Of significance is HMGB-1, which is constitutively expressed in the nuclei of most mammalian cells. Under cellular stress, HMGB1 is released into the extracellular matrix and activates the immune response thus acting as a danger-signal. Both PAR1 and PAR4 selectively regulated the release of VEGF and endostatin, and IL-1RA and HMGB-1 from human platelets. Therefore, the role of PAR1 and PAR4 on human platelet activation and inflammation should be considered prior to the use of PRP to treat tendon injuries