17beta-estradiol reduces neuronal apoptosis induced by HIV-1 gp120 in the neocortex of rat.

The human immunodeficiency virus type 1 (HIV-1) coat glycoprotein gp120 represents a likely contributor to the development of HIV-1 associated dementia (HAD), a neurological syndrome often observed in AIDS patients and characterised by significant neuronal loss in the neocortex. Since recent studies have highlighted that female sex hormones represent potential neuroprotective agents against damage produced by acute and chronic injuries in the adult brain, we have investigated whether estrogens exert protection in a rat model of gp120 neurotoxicity. Our results demonstrate that systemic administration of 17beta-estradiol (E2, 0.02-0.2 mg/kg) significantly reduces apoptotic cell death observed in the neocortex of rat following subchronic i.c.v. administration of gp120 (100 ng/rat/day). Furthermore, both tamoxifen and ICI182,780, two selective antagonists of estrogen receptors (ER) in the brain, reverted the neuroprotective effect of E2. The molecular mechanism of estrogenic neuroprotection does not appear to involve modulation of the antiapoptotic Bcl-2 or the proapoptotic Bax since we failed to observe changes in the levels of the two proteins in the neocortical tissue after gp120 and/or E2 treatment. However, we detected increased levels of IL-1beta in the neocortex of rats injected with gp120, as early as 6h after drug administration, and this effect was potentiated following pretreatment with E2. Taken together, our results demonstrate that E2 exerts neuroprotection against gp120 neurotoxicity in vivo through a mechanism involving ER activation and, possibly, via modulation of neocortical levels of IL-1beta.

Adenosine triphosphate affects interleukin -1beta release by T98G glioblastoma cells through a purinoceptor-independent mechanism.

T98G glioblastoma cells were previously shown to significantly increase interleukin-1beta (IL-1beta) mRNA levels in response to IL-1beta stimulation. This work demonstrates that in such conditions T98G, despite possessing biologically active interleukin converting enzyme, do not release detectable amounts of IL-1beta, even in the presence of 20 mM adenosine triphosphate (ATP). IL-1beta secretion is observed only following concomitant stimulation with 1000 units/ml of IL-1beta and 20 mM ATP. ATP induces a dose-dependent depolarization of T98G plasma membrane, whereas it does not affect Ca(2+) concentration or cell membrane permeability. Our data, together with the observation that the depolarizing effects of ATP are retained after preincubation with 100 microM suramin, an antagonist of P2-purinoceptors, suggest that ATP plays a role in IL-1beta secretion by T98G but its effects do not occur through P2-purinoceptors.

Transglutaminase 5 is acetylated at the N-terminal end.

Transglutaminases (TGases) are calcium-dependent enzymes that catalyse cross-linking between proteins by acyl transfer reaction; they are involved in many biological processes including coagulation, differentiation, and tissue repair. Transglutaminase 5 was originally cloned from keratinocytes, and a partial biochemical characterisation showed its involvement in skin differentiation, in parallel to TGase 1 and TGase 3. Here, we demonstrate, by electrospray tandem mass spectrometry that TGase 5 is acetylated at the N-terminal end. Moreover, in situ measurement of TGase activity shows that endogenous TGase 5 is active upon treatment with phorbol acetate, and the enzyme co-localises with vimentin intermediate filaments.