Kathleen P. Lavoi scite author profile

Kathleen P. Lavoi

5Publications

101Citation Statements Received

21Citation Statements Given

How they've been cited

158

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Affiliations

University of North Dakota

Publications

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Characterization and regulation of cold-induced heat shock protein expression in mouse brown adipose tissue

Matz

Blake

Tatelman

et al. 1995

American Journal of Physiology-Regulatory, Integrative and Comp

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The accumulation of heat shock proteins (HSPs) after the exposure of cells or organisms to elevated temperatures is well established. It is also known that a variety of other environmental and cellular metabolic stressors can induce HSP synthesis. However, few studies have investigated the effect of cold temperature on HSP expression. Here we report that exposure of Institute of Cancer Research (ICR) mice to cold ambient temperatures results in a tissue-selective induction of HSPs in brown adipose tissue (BAT) coincident with the induction of mitochondrial uncoupling protein synthesis. Cold-induced HSP expression is associated with enhanced binding of heat shock transcription factors to DNA, similar to that which occurs after exposure of cells or tissues to heat and other metabolic stresses. Adrenergic receptor antagonists were found to block cold-induced HSP70 expression in BAT, whereas adrenergic agonists induced BAT HSP expression in the absence of cold exposure. These findings suggest that norepinephrine, released in response to cold exposure, induces HSP expression in BAT. Norepinephrine appears to initiate transcription of HSP genes after binding to BAT adrenergic receptors through, as yet, undetermined signal transduction pathways. Thermogenesis results from an increase in activity and synthesis of several metabolic enzymes in BAT of animals exposed to cold challenge. The concomitant increase in HSPs may function to facilitate the translocation and activity of the enzymes involved in this process.

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Cold-Induced Heat Shock Protein Expression in Rat Aorta and Brown Adipose Tissue

Matz

Lavoi

Moen

et al. 1996

Physiology & Behavior

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

Matz

Lavoi

Epstein

et al. 1996

American Journal of Physiology-Regulatory, Integrative and Comp

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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. These transgenic mice overexpress a calmodulin minigene regulated by the rat insulin II promotor, resulting in severe diabetes characterized by elevated blood glucose and glucagon that coincides with reduced serum and pancreatic insulin. Body temperature (Tb) of diabetic mice dropped significantly faster during a 3-h cold exposure (6 degrees C) than Tb of similarly treated control littermates. Cold exposure resulted in increased levels of constitutive and inducible HSP70 transcripts in control mice, but only constitutive HSP70 mRNA transcripts were induced in diabetic mice. Diabetes did not affect uncoupling protein induction, but cold-induced expression of members of other HSP families was reduced. Correspondingly, heat-shock regulatory factors were not activated in diabetic mice even though these factors were present. Phenylephrine induced HSP70 expression in control and diabetic animals, indicating that alpha-receptor-coupled HSP induction remained intact in BAT of diabetic mice. Insulin replacement restored the Tb response of diabetic mice as well as the HSP response. From these results it is clear that physiological signals that regulate cold-induced activation of BAT also regulate HSP expression in this tissue. This diabetic model provides a novel system in which the HSP response to cold has been selectively knocked out, making it a useful tool for the study of HSP regulation and function in BAT.

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A Novel Heat Shock Response in Prolactin-dependent Nb2 Node Lymphoma Cells

Blake

Buckley

Zhang

et al. 1995

Journal of Biological Chemistry

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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. Moreover, expression of constitutive members of the HSP70 and HSP90 families decreased during the heat stress, apparently reflecting a decrease in mRNA stability. Gel shift assays revealed that heat shock factor (HSF) was activated in spite of the lack of expression of inducible HSP70 transcripts, although its DNA binding rapidly deteriorated. Immunoblotting, using an antibody specific to HSF1, indicated that proteolysis of HSF1 may be responsible for this rapid termination of heat shock element binding. CCAAT binding, a component of constitutive HSP70 expression, was also reduced by heat stress in Nb2-11 cells and may account for the decline in constitutive HSP70 expression. Prolactin pretreatment prevented the fragmentation of HSF1, protected heat shock element and CCAAT binding, prevented the decline in constitutive HSP70 and HSP90 expression, and restored a modest expression of inducible HSP70 following heat treatment. Results of this study describe a unique regulatory defect in HSP expression in Nb2-11 cells, possibly a common characteristic of other hormone-dependent tumors.

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

Zhang

Buckley²,

Lavoi³

et al. 1998

Cell Stress Chaper

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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. Cycloheximide did not affect HSF fragmentation of heat-shocked Nb2-11 cells suggesting that proteases responsible for this proteolysis are constitutively expressed and become activated by the heat shock conditions. PRL protected Nb2-11 cells from heat-induced fragmentation whereas sodium butyrate (NaBT) rendered a fragmentation-resistant cell line (Nb2-SFJCD1 cells) sensitive to HSF proteolysis. Heat-induced HSF fragmentation in Nb2-11 cells was not affected by pretreating cultures with several serine protease inhibitors. However, a dose-dependent decrease in HSF fragmentation was achieved by pretreating cultures with iodoacetamide, a cysteine protease inhibitor that is active in apoptosis. Apparently, the heat shock response in Nb2 cells is attenuated by a mechanism that involves the premature deactivation of HSF by its selective proteolysis. Attenuation of this critical cellular stress response may be an important contributor to the progression of hormone-dependent tumors possibly by influencing apoptotic processes known to regulate the activity of these cells.

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Kathleen P. Lavoi

Characterization and regulation of cold-induced heat shock protein expression in mouse brown adipose tissue

Cold-Induced Heat Shock Protein Expression in Rat Aorta and Brown Adipose Tissue

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

A Novel Heat Shock Response in Prolactin-dependent Nb2 Node Lymphoma Cells

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

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