scholarly journals Changes in mitochondrial components of hamster brown adipose tissue in response to cold acclimation

1981 ◽  
Vol 194 (2) ◽  
pp. 653-656 ◽  
Author(s):  
M E Yacoe
Keyword(s):  
Adipose Tissue ◽  
Atpase Activity ◽  
Brown Adipose Tissue ◽  
Cold Acclimation ◽  
Liver Mitochondria ◽  
Adaptive Change ◽  
Brown Adipose ◽  
Shivering Thermogenesis ◽  
Respiration Characteristic

Cold acclimation of hamsters was found to result in an increase in cytochrome concentration relative to ATPase activity in brown adipose tissue mitochondria, but not in liver mitochondria. These data lend support to the hypothesis that the uncoupled respiration characteristic of non-shivering thermogenesis is the result of an adaptive change in the composition of brown adipose tissue mitochondria in response to cold acclimation.

scholarly journals Oxidative phosphorylation. The specific binding of trimethyltin and triethyltin to rat liver mitochondria

1970 ◽  
Vol 118 (1) ◽  
pp. 171-179 ◽  
Author(s):  
W. N. Aldridge ◽  
B. W. Street
Keyword(s):  
Adipose Tissue ◽  
Oxidative Phosphorylation ◽  
Brown Adipose Tissue ◽  
Binding Site ◽  
Rat Liver ◽  
Specific Binding ◽  
Liver Mitochondria ◽  
Rat Liver Mitochondria ◽  
Affinity Constants ◽  
Brown Adipose

1. The binding of trimethyltin and triethyltin to rat liver mitochondria was determined and the results were analysed by the method of Scatchard (1949). 2. One binding site (site 1) has the correct characteristics for the site to which trimethyltin and triethyltin are attached when they inhibit oxidative phosphorylation. For each compound the concentration of site 1 is 0.8nmol/mg of protein and the ratios of their affinity constants are the same as the ratio of the concentrations inhibiting oxidative phosphorylation. 3. Binding site 1 is present in a fraction derived from mitochondria containing only 15% of the original protein. In this preparation ultrasonication rapidly destroyed site 1. 4. Dimethyltin and diethyltin do not prevent binding of triethyltin to rat liver mitochondria, whereas triethyl-lead does. 5. Trimethyltin and triethyltin bind to mitochondria from brown adipose tissue and the results indicate a binding site 1 similar to that in rat liver mitochondria. 6. The advantages and limitations of this approach to the study of inhibitors are discussed.

Non-shivering Thermogenesis and Brown Adipose Tissue in the Human New-born Infant

Nature ◽  
1965 ◽  
Vol 206 (4980) ◽  
pp. 201-202 ◽  
Author(s):  
M. J. R. DAWKINS ◽  
J. W. SCOPES
Keyword(s):  
Adipose Tissue ◽  
Brown Adipose Tissue ◽  
New Born ◽  
Born Infant ◽  
Brown Adipose ◽  
Shivering Thermogenesis

scholarly journals Correction: Thyroid Hormone Activates Brown Adipose Tissue and Increases Non-Shivering Thermogenesis—A Cohort Study in a Group of Thyroid Carcinoma Patients

PLoS ONE ◽  
2018 ◽  
Vol 13 (12) ◽  
pp. e0209225
Author(s):  
Evie P. M. Broeders ◽  
Guy H. E. J. Vijgen ◽  
Bas Havekes ◽  
Nicole D. Bouvy ◽  
Felix M. Mottaghy ◽  
...  
Keyword(s):  
Adipose Tissue ◽  
Cohort Study ◽  
Thyroid Hormone ◽  
Thyroid Carcinoma ◽  
Brown Adipose Tissue ◽  
Brown Adipose ◽  
Shivering Thermogenesis

scholarly journals Plasticity of non-shivering thermogenesis and brown adipose tissue in high-altitude deer mice

2021 ◽  
Author(s):  
Soren Z. Coulson ◽  
Cayleih E. Robertson ◽  
Sajeni Mahalingam ◽  
Grant B. McClelland
Keyword(s):  
Adipose Tissue ◽  
Brown Adipose Tissue ◽  
High Altitude ◽  
Heat Production ◽  
Mitochondrial Function ◽  
Mitochondrial Respiration ◽  
Deer Mice ◽  
Brown Adipose ◽  
Hypoxia Acclimation ◽  
Shivering Thermogenesis

High altitude environments challenge small mammals with persistent low ambient temperatures that require high rates of aerobic heat production in face of low O2 availability. An important component of thermogenic capacity in rodents is non-shivering thermogenesis (NST) mediated by uncoupled mitochondrial respiration in brown adipose tissue (BAT). NST is plastic, and capacity for heat production increases with cold acclimation. However, in lowland native rodents, hypoxia inhibits NST in BAT. We hypothesize that highland deer mice (Peromyscus maniculatus) overcome the hypoxic inhibition of NST through changes in BAT mitochondrial function. We tested this hypothesis using lab born and raised highland and lowland deer mice, and a lowland congeneric (P. leucopus), acclimated to either warm normoxia (25°C, 760 mmHg) or cold hypoxia (5°C, 430 mmHg). We determined the effects of acclimation and ancestry on whole-animal rates of NST, the mass of interscapular BAT (iBAT), and uncoupling protein (UCP)-1 protein expression. To identify changes in mitochondrial function, we conducted high-resolution respirometry on isolated iBAT mitochondria using substrates and inhibitors targeted to UCP-1. We found that rates of NST increased with cold hypoxia acclimation but only in highland deer mice. There was no effect of cold hypoxia acclimation on iBAT mass in any group, but highland deer mice showed increases in UCP-1 expression and UCP-1 stimulated mitochondrial respiration in response to these stressors. Our results suggest that highland deer mice have evolved to increase the capacity for NST in response to chronic cold hypoxia, driven in part by changes in iBAT mitochondrial function.

Lipid metabolism: Effects of immunosympathectomy and acclimation to cold

1968 ◽  
Vol 46 (3) ◽  
pp. 453-461 ◽  
Author(s):  
G. Steiner ◽  
E. Schönbaum ◽  
G. E. Johnson ◽  
E. A. Sellers
Keyword(s):  
Adipose Tissue ◽  
Brown Adipose Tissue ◽  
Cold Acclimation ◽  
Relative Weight ◽  
Fat Pad ◽  
Liver Lipids ◽  
Interscapular Brown Adipose Tissue ◽  
Brown Adipose ◽  
Glucose Recovery ◽  
Intact Rats

The effects of immunosympathectomy and acclimation to cold on the incorporation of glucose-U-14C into lipids of the interscapular brown adipose tissue, epididymal fat pad, and liver of rats have been investigated. Acclimation to cold was associated with an increase in glucose recovered in the total lipids of brown adipose tissue. These changes in glucose recovery were the same in immunosympathectomized as in intact rats. The brown adipose tissue of the two groups of cold-acclimated rats differed, however, in that this tissue in the immunosympathectomized animals was larger and had more lipid. Suggestions are raised to explain these findings. Neither immunosympathectomy nor cold acclimation produced any changes in white adipose tissue. Immunosympathectomy did not alter the liver's handling of glucose. However, cold-acclimation was associated with an increase in the relative weight of the liver and a decrease in glucose recovery in liver lipids.

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