Heat-induced proteolysis of HSF causes premature deactivation of the heat shock response in Nb2 lymphoma cells.

Nb2-11 cells, a prolactin (PRL)-dependent T-lymphoma cell line, display an unusual response to heat stress characterized by the lack of expression of inducible hsp70 mRNA transcripts and a reduction in the levels of constitutively expressed heat shock protein (HSP) genes. This aberrant heat shock response appears to result from heat-induced proteolytic fragmentation of heat shock factor (HSF). In this report, we have investigated processes that promote HSF fragmentation and identified characteristics of a protease that may be responsible for this effect.

Cold-induced heat shock protein expression in rat aorta and brown adipose tissue.

Recent reports indicate that Heat Shock Proteins (HSPs) are induced in mammalian tissues as part of a homeostatic response to environmental stressors. Administration of sympathomimetic drugs and neuroendocrine stress hormones has been shown to evoke an HSP response in unstressed animals indicating that cell signaling events exists that couple specific neurotransmitter/hormone-receptor interactions with HSP expression in mammalian tissues. Herein, we demonstrate that exposure of rats to a cold ambient temperature (6 degrees C) results in increased expression of constitutive and inducible members of the HSP70 gene family in association with increased expression of the mitochondrial uncoupling protein in brown adipose tissue (BAT).

Adrenergic regulation of the heat shock response in brown adipose tissue.

One of several ways that cells respond to damage or stress is by the expression of a set of highly conserved proteins termed, heat shock proteins (HSP). Induction of the heat shock response has been positively correlated with adaptation or protection of cells and tissues from the destructive effects of various types of stressors. Although heat can induce a generalized HSP response in most cells, the selective induction of HSP in specific cell populations by pharmacological agents may prove therapeutically useful for the protection of organs or tissues at risk for damage.

Thermoregulatory and heat-shock protein response deficits in cold-exposed diabetic mice.

Cold-induced expression of heat-shock proteins (HSPs) has been suggested to facilitate thermogenesis in brown adipose tissue (BAT). However, the regulation of this response and the mechanism supporting this facilitation have not been established. Because of the significant role of insulin in maintaining BAT thermogenesis, we employed a transgenic mouse model of diabetes to investigate the regulation and function of HSPs in BAT thermogenesis.

A novel heat shock response in prolactin-dependent Nb2 node lymphoma cells.

Virtually all cells respond to heat stress by increased expression or induction of one or more of the highly conserved cellular stress response proteins, heat shock proteins (HSPs). Here, we report the unusual property of rat Nb2-11 cells, a prolactin-dependent pre-T-cell line, to display reduced HSP expression following exposure to elevated temperature. After heat stress (41 degrees C, 1 h), there was no evidence of inducible members of the 70 kDa HSP family, a response common to other cell culture and tissue systems.