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The effect of endotoxin (lipopolysacharide, LPS) exposure on luteal cells was studied using an in vitro cell culture system. Buffalo luteal cells were isolated from corpora lutea of the late luteal phase (days 14-16 post estrus) and exposed to various LPS doses (5, 10 and 100 microg/ml) for different time periods (6, 12, 18 or 24 h). The cultured cells were subsequently evaluated for oxidative stress (super oxide, nitric oxide, inducible nitric oxide synthase activity, reduced glutathione depletion and lipid peroxidation) and apoptotic markers (mitochondrial membrane potential, DNA fragmentation, apoptotic cells and cell viability). LPS exposure significantly increased the production of super oxide (P<0.05) and nitric oxide (P<0.01) and increased inducible nitric oxide synthase activity (P<0.01). LPS exposure further depleted reduced glutathione (P<0.05) levels and induced lipid peroxidation (P<0.05). LPS exposure also induced the loss of mitochondrial membrane potential (P<0.05), increased DNA fragmentation (P<0.01) and apoptosis (P<0.01) and decreased cell viability (P<0.01). LPS mediated apoptotic pathway in luteal cells was further characterized using a selected LPS dose (10 microg/ml). It was observed that LPS exposure induced mitochondrial translocation of proapoptotic protein Bax, increased the total Bad expression and down regulated the expression of antiapoptotic proteins Bcl2 and BclXL. LPS exposure further induced cytochrome c release and increased Caspase-9 (P<0.01) and Caspase-3 (P<0.01) activities. LPS exposure also inhibited luteal progesterone secretion (P<0.01). It was evident that the LPS mediated apoptotic effects could be prevented by the coincubation of luteal cells with mitochondrial permeability transition pore blocker Cyclosporine A, inducible nitric oxide synthase inhibitor N-[3-(aminomethyl)benzyl]acetamidine and oxidative stress scavenger N-acetyl cysteine. Our study clearly indicates that LPS induces oxidative stress mediated apoptosis in luteal cells through the mitochondrial pathway. 相似文献
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In Drosophila embryos, the Torso receptor tyrosine kinase (RTK) activates the small G protein Ras (D-Ras1) and the protein kinase Raf (D-Raf) to activate ERK to direct differentiation of terminal structures . However, genetic studies have demonstrated that Torso, and by extension other RTKs, can activate Raf and ERK independently of Ras . In mammalian cells, the small G protein Rap1 has been proposed to couple RTKs to ERKs. However, the ability of Rap1 to activate ERKs remains controversial, in part because direct genetic evidence supporting this hypothesis is lacking. Here, we present biochemical and genetic evidence that D-Rap1, the Drosophila homolog of Rap1, can activate D-Raf and ERK. We show that D-Rap1 binds D-Raf and activates ERKs in a GTP- and D-Raf-dependent manner. Targeted disruption of D-Rap1 expression decreased both Torso-dependent ERK activation and the ERK-dependent expression of the zygotic genes tailless and huckebein to levels similar to those achieved in D-Ras1 null embryos. Furthermore, combined deficiencies of D-Ras1 and D-Rap1 completely abolished expression of these genes, mimicking the phenotype observed in embryos lacking D-Raf. These studies provide the first direct genetic evidence of Rap1-mediated activation of the MAP kinase cascade in eukaryotic organisms. 相似文献
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Arman Namvar Adam J. Blanch Matthew W. Dixon Olivia M. S. Carmo Boyin Liu Snigdha Tiash Oliver Looker Dean Andrew Li‐Jin Chan Wai‐Hong Tham Peter V. S. Lee Vijay Rajagopal Leann Tilley 《Cellular microbiology》2021,23(1)
The remarkable deformability of red blood cells (RBCs) depends on the viscoelasticity of the plasma membrane and cell contents and the surface area to volume (SA:V) ratio; however, it remains unclear which of these factors is the key determinant for passage through small capillaries. We used a microfluidic device to examine the traversal of normal, stiffened, swollen, parasitised and immature RBCs. We show that dramatic stiffening of RBCs had no measurable effect on their ability to traverse small channels. By contrast, a moderate decrease in the SA:V ratio had a marked effect on the equivalent cylinder diameter that is traversable by RBCs of similar cellular viscoelasticity. We developed a finite element model that provides a coherent rationale for the experimental observations, based on the nonlinear mechanical behaviour of the RBC membrane skeleton. We conclude that the SA:V ratio should be given more prominence in studies of RBC pathologies. 相似文献
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Snigdha Panigrahi Shariq Mohammed Arvind Rao Veerabhadran Baladandayuthapani 《Biometrics》2023,79(3):1801-1813
Integrative analyses based on statistically relevant associations between genomics and a wealth of intermediary phenotypes (such as imaging) provide vital insights into their clinical relevance in terms of the disease mechanisms. Estimates for uncertainty in the resulting integrative models are however unreliable unless inference accounts for the selection of these associations with accuracy. In this paper, we develop selection-aware Bayesian methods, which (1) counteract the impact of model selection bias through a “selection-aware posterior” in a flexible class of integrative Bayesian models post a selection of promising variables via ℓ1-regularized algorithms; (2) strike an inevitable trade-off between the quality of model selection and inferential power when the same data set is used for both selection and uncertainty estimation. Central to our methodological development, a carefully constructed conditional likelihood function deployed with a reparameterization mapping provides tractable updates when gradient-based Markov chain Monte Carlo (MCMC) sampling is used for estimating uncertainties from the selection-aware posterior. Applying our methods to a radiogenomic analysis, we successfully recover several important gene pathways and estimate uncertainties for their associations with patient survival times. 相似文献
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Mutsuko Minata Alessandra Audia Junfeng Shi Songjian Lu Joshua Bernstock Marat S. Pavlyukov Arvid Das Sung-Hak Kim Yong Jae Shin Yeri Lee Harim Koo Kirti Snigdha Indrayani Waghmare Xing Guo Ahmed Mohyeldin Daniel Gallego-Perez Jia Wang Dongquan Chen Krishna P. Bhat 《Cell reports》2019,26(7):1893-1905.e7
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Fragile X syndrome (FXS) is a well-recognized form of inherited mental retardation, caused by a mutation in the fragile X mental retardation 1 (Fmr1) gene. The gene is located on the long arm of the X chromosome and encodes fragile X mental retardation protein (FMRP). Absence of FMRP in fragile X patients as well as in Fmr1 knockout (KO) mice results, among other changes, in abnormal dendritic spine formation and altered synaptic plasticity in the neocortex and hippocampus. Clinical features of FXS include cognitive impairment, anxiety, abnormal social interaction, mental retardation, motor coordination and speech articulation deficits. Mouse pups generate ultrasonic vocalizations (USVs) when isolated from their mothers. Whether those social ultrasonic vocalizations are deficient in mouse models of FXS is unknown. Here we compared isolation-induced USVs generated by pups of Fmr1-KO mice with those of their wild type (WT) littermates. Though the total number of calls was not significantly different between genotypes, a detailed analysis of 10 different categories of calls revealed that loss of Fmr1 expression in mice causes limited and call-type specific deficits in ultrasonic vocalization: the carrier frequency of flat calls was higher, the percentage of downward calls was lower and that the frequency range of complex calls was wider in Fmr1-KO mice compared to their WT littermates. 相似文献
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