The p160 nuclear receptor co-activator RAC3 exerts an anti-apoptotic role through a cytoplasmatic action.

The p160 nuclear receptor co-activators represent a family of molecules, which are recruited by steroid nuclear receptors as well as other transcription factors that are overexpressed in several tumors. We investigated the role of one member of this family on the sensitivity of cells to apoptosis. We observed that overexpression of the RAC3 (receptor-associated co-activator-3) p160 co-activator inhibits hydrogen peroxide-induced cell death in human embryonic kidney 293 (HEK293) cells. The mechanism involves the activation of anti-apoptotic pathways mediated through enhanced nuclear factor kappa B (NF-kappaB) activity, inhibition of caspase-9 activation, diminished apoptotic-inducing factor (AIF) nuclear localization and a change in the activation pattern of several kinases, including an increase in both AKT and p38 kinase activities, and inhibition of ERK2. Moreover, RAC3 has been found associated with a protein complex containing AIF, Hsp90 and dynein, suggesting a role for the co-activator in the cytoplasmatic nuclear transport of these proteins associated with cytoskeleton. These results demonstrate that there are several molecular pathways that could be affected by their overexpression, including those not restricted to steroid regulation or the nuclear action of co-activators, which results in diminished sensitivity to apoptosis. Furthermore, this could represent one mechanism by which co-activators contribute to tumor development.

TNF-alpha enhances estrogen-induced cell proliferation of estrogen-dependent breast tumor cells through a complex containing nuclear factor-kappa B.

Breast tumors are usually classified according to their response to estrogens as hormone-dependent or -independent. In this work, we investigated the role of the proinflammatory cytokine TNF-alpha on the estrogen-receptor-positive T47D breast ductal tumor cells. We have found that TNF-alpha exerts a mitogenic effect, inducing cyclin D1 expression and activation of the transcription factor NF-kappaB. Importantly, activation of NF-kappaB was required for estrogen-induced proliferation and cyclin D1 expression. TNF-alpha enhanced the estrogen response by increasing the levels and availability of NF-kappaB. Chromatin immunoprecipitation analysis suggested that the action of estrogens is mediated by a protein complex that contains the activated estrogen receptor, the nuclear receptor coactivator RAC3 and a member of the NF-kappaB family. Finally, our results demonstrate that activation of this transcription factor could be one of the key signals for estrogen-mediated response.

La actividad transcripcional de NF-kappaB es diferencialmente regulada por dominios específicos del coactivador TIF2 / Different enzymatic activities recruitment by specific domains of TIF2 are involved in NF-kappaB transactivation

We have previously shown that nuclear receptor coactivator overexpression significantly enhanced NF-kappaB activity in a dose response manner. We studied the mechanism by which TIF2 regulates NF-kappaB activity. We determined that: 1) the p38 specific inhibitor reduces 50% NF-kappaB transcriptional activity, even in cells that overexpress distinct TIF2 deletions; 2) there is a physical interaction between TIF2 and p38 and RelA determined through in vitro translated protein binding assays; 3) TIF2 is a p38 substrate; 4) there is a physical interaction between TIF2 and IKK in TNF-alpha 20 ng/ml stimulated or not HEK 293 cell protein extract, and IkappaB only in basal conditions, determined by binding pull down assays. This NF-kappaB complex regulates its activity and targets gene expression in a determined physiologic context depending on the coactivator complex content.

Demonstramos previamente que la sobreeexpresión de coactavadores de receptores nucleares aumenta la actividad NF-kB en forma de dosis depepndiente. Se estudió el mecanismo por el cual el coactavador TIF2 regula la actividad de NF-kB. Determinamos que: 1)el inhibidor específico de p38 disminuye al 50% la actividad transcripcional de NF-kB, aún en células que sobreexpresan distitntas deleciones de TIF2; 2) existe interacción físca directa de TIF2 con p38; y RelA determinada a trav[es de ensayos de unión con proteína traducida in vitro; 3) TIF2 ES SUSTRATO DE P38; 4) mediante ensayos de unión con extractos proteicos de células...

La actividad transcripcional de NF-kappaB es diferencialmente regulada por dominios específicos del coactivador TIF2 / Different enzymatic activities recruitment by specific domains of TIF2 are involved in NF-kappaB transactivation

We have previously shown that nuclear receptor coactivator overexpression significantly enhanced NF-kappaB activity in a dose response manner. We studied the mechanism by which TIF2 regulates NF-kappaB activity. We determined that: 1) the p38 specific inhibitor reduces 50% NF-kappaB transcriptional activity, even in cells that overexpress distinct TIF2 deletions; 2) there is a physical interaction between TIF2 and p38 and RelA determined through in vitro translated protein binding assays; 3) TIF2 is a p38 substrate; 4) there is a physical interaction between TIF2 and IKK in TNF-alpha 20 ng/ml stimulated or not HEK 293 cell protein extract, and IkappaB only in basal conditions, determined by binding pull down assays. This NF-kappaB complex regulates its activity and targets gene expression in a determined physiologic context depending on the coactivator complex content.(AU)

Demonstramos previamente que la sobreeexpresión de coactavadores de receptores nucleares aumenta la actividad NF-kB en forma de dosis depepndiente. Se estudió el mecanismo por el cual el coactavador TIF2 regula la actividad de NF-kB. Determinamos que: 1)el inhibidor específico de p38 disminuye al 50% la actividad transcripcional de NF-kB, aún en células que sobreexpresan distitntas deleciones de TIF2; 2) existe interacción físca directa de TIF2 con p38; y RelA determinada a trav[es de ensayos de unión con proteína traducida in vitro; 3) TIF2 ES SUSTRATO DE P38; 4) mediante ensayos de unión con extractos proteicos de células...(AU)

Osmotic stress sensitizes naturally resistant cells to TNF-alpha-induced apoptosis.

Most cells are naturally resistant to TNF-alpha-induced cell death and become sensitized when NF-kappaB transactivation is blocked or in the presence of protein synthesis inhibitors that prevent the expression of anti-apoptotic genes. In this report we analyzed the role of osmotic stress on TNF-alpha-induced cell death. We found that it sensitizes the naturally resistant HeLa cells to TNF-alpha-induced apoptosis, with the involvement of an increase in the activity of several kinases, the inhibition of Bcl-2 expression, and a late increase on NF-kappaB activation. Cell death occurs regardless of the enhanced NF-kappaB activity, whose inhibition produces an increase in apoptosis. The inhibition of p38 kinase, also involved in NF-kappaB activation, significantly increases the effect of osmotic stress on TNF-alpha-induced cell death.