MMP-9 is unlikely to be a clinically useful biomarker of CHD risk

MMP-9 is unlikely to be a clinically useful biomarker of CHD risk, but may still play a role in the pathogenesis of CHD.”
“Cranial visceral afferent nerve transfers information about visceral organs to nucleus tractus solitarii (NTS) by releasing the excitatory neurotransmitter glutamate. Various endogenous modulators affect autonomic reflex responses by changing glutamatergic responses in the NTS. Although the expression of GABA(A) and GABA(B) receptors in glutamatergic terminals is known, their functional contribution on glutamate release is poorly characterized. Here, we used mechanically isolated

NTS neurons to examine the mechanisms by which presynaptic GABA(A) ABT-737 cell line and GABA(B) receptors modulate glutamatergic excitatory

postsynaptic currents (EPSCs). EPSC were isolated by clamping voltage at equilibrium potential for chloride (-49 mV) without any GABA receptors antagonists. In all neurons, GABA(A) agonist, muscimol (1 and 10 mu M), increased EPSC frequency (284.1+/-57% and 278.4+/-87% of control, respectively), but the GABA(B) agonist, baclofen (10 mu M), decreased EPSC frequency (43+/-8% of control). The GABA(A) antagonist, gabazine (18 mu M), decreased EPSC frequency in 50% of tested neurons, whereas GABA(B) antagonist, CGP (5 mu M), increased the EPSC frequency in 36% of tested neurons. External application of GABA (1 and 30 mu M) facilitating the EPSC frequency. The facilitation of the GABA(A) receptor-mediated release of glutamate was blocked by Na+-K+-Cl- cotransporter type 1 antagonist or Na+ and Wortmannin Ca2+ channel inhibitors indicating GABA(A) presynaptic depolarization. Thus, tonically released GABA activates GABA(A) and GABA(B) receptors to modulate the release of glutamate. These findings provide cellular mechanisms of heterosynaptic GABA-glutamate integration of peripheral visceral afferent signals in the NTS. (C) 2012 IBRO. Published by Elsevier

Ltd. All rights reserved.”
“Plasmid DNA vaccines serve in a wide array of applications ranging from prophylactic vaccines to potential therapeutic tools against infectious diseases and cancer. In this study, we analyzed the mechanisms underlying the activation of natural killer (NK) cells and their potential role in adaptive immunity during DNA-based immunization against Carbohydrate hepatitis B virus surface antigen in mice. We observed that the mature Mac-1(+) CD27(-) NK cell subset increased in the liver of mice early after DNA injection, whereas the number of the less mature Mac-1(+) CD27(+) NK cells in the liver and spleen was significantly reduced. This effect was attributed to bacterial sequences present in the plasmid backbone rather than to the encoded antigen and was not observed in immunized MyD88-deficient mice. The activation of NK cells by plasmid-DNA injection was associated with an increase in their effector functions that depended on the expressed antigen.

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