4 research outputs found

    Neuronal Deletion of Caspase 8 Protects against Brain Injury in Mouse Models of Controlled Cortical Impact and Kainic Acid-Induced Excitotoxicity

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    system. mice demonstrated superior survival, reduced seizure severity, less apoptosis, and reduced caspase 3 processing. Uninjured aged knockout mice showed improved learning and memory, implicating a possible role for caspase 8 in cognitive decline with aging.Neuron-specific deletion of caspase 8 reduces brain damage and improves post-traumatic functional outcomes, suggesting an important role for this caspase in pathophysiology of acute brain trauma

    Male-Biased Effects of Gonadotropin-Releasing Hormone Neuron-Specific Deletion of the Phosphoinositide 3-Kinase Regulatory Subunit p85α on the Reproductive Axis

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    GnRH neurosecretion is subject to regulation by insulin, IGF-I, leptin, and other neuroendocrine modulators whose effects may be conveyed by activation of phosphoinositide 3-kinase (PI3K)-mediated pathways. It is not known, however, whether any of these regulatory actions are exerted directly, via activation of PI3K in GnRH neurons, or whether they are primarily conveyed via effects on afferent circuitries governing GnRH neurosecretion. To investigate the role of PI3K signaling in GnRH neurons, we used conditional gene targeting to ablate expression of the major PI3K regulatory subunit, p85α, in GnRH neurons. Combined in situ hybridization and immunohistochemistry confirmed reduction of p85α mRNA expression in GnRH neurons of GnRH-p85α knockout (KO) animals. Females of both genotypes exhibited estrous cyclicity and had comparable serum LH, estradiol-17β, and FSH levels. In male GnRH-p85αKO mice, serum LH, testosterone, and sperm counts were significantly reduced compared with wild type. To investigate the role of the other major regulatory subunit, p85β, on the direct control of GnRH neuronal function, we generated mice with a GnRH-neuron-specific p85α deletion on a global βKO background. No additional reproductive effects in male or female mice were found, suggesting that p85β does not substitute p85 activity toward PI3K function in GnRH neurons. Our results suggest that p85α, and thus PI3K activity, participates in the control of GnRH neuronal activity in male mice. The sex-specific phenotype in these mice raises the possibility that PI3K activation during early development may establish sex differences in GnRH neuronal function
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