We are analyzing https://link.springer.com/article/10.1007/bf00678721.

Title:
Convertible adipose tissue in mice | Cell and Tissue Research
Description:
Ability to express uncoupling protein (UCP) and establish UCP-dependent thermogenesis was analyzed in anatomical areas of mice that are generally considered to be white adipose tissue: mesenterial, perimetral, epididymal, inguinal, and superficial layer of interscapular white adipose tissue. The mice were acclimatized for 1 week to 4° C; the following week they were exposed to cold stress (1 h at-20° C, 2–3 times daily). In such conditions in inguinal adipose tissue, slot-blot analysis detected significant amount of UCP mRNA and lipoprotein lipase mRNA. Immuno-electron-microscopic localization of UCP showed that developed mitochondria of cold-stressed inguinal adipocytes contained UCP in the same amount as uncoupled (UC)-mitochondria of brown adipocytes. Morphological and morphometrical analysis showed that such inguinal adipose tissue appeared as brown adipose tissue. Since in control mice, inguinal adipose tissue was UCP-negative and tissue appeared as white adipose tissue, the duration of this white-to-brown adipose tissue conversion was analyzed. Mice, cold stressed for 1 week, were rewarmed at 28° C and their inguinal adipose tissue was analyzed in comparison with interscapular brown adipose tissue and epididymal white adipose tissue for another 37 days. During that time inguinal adipocytes ceased expressing UCP mRNA; UC-mitochondria in inguinal adipocytes were destroyed and replaced with common, C-mitochondria; and UCP was undetectable immunohistochemically. Adipocytes accumulated lipids, and the tissue morphologically once again resembled white adipose tissue. Described changes showed that besides typical brown and white adipose tissue in mice, there existed a third type of adipose tissue described as convertible adipose tissue.
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Keywords {🔍}

tissue, adipose, google, scholar, brown, protein, uncoupling, white, physiol, article, cold, fat, mice, lončar, mitochondria, adipocytes, trayhurn, inguinal, biochem, res, eds, london, cell, ucp, thermogenesis, mrna, lipase, access, biol, content, research, lipoprotein, nicholls, privacy, cookies, function, convertible, human, arnold, afzelius, york, newborn, rats, cannon, mitochondrial, lean, struct, mol, publish, search,

Topics {✒️}

month download article/chapter beta-stimulanttreated adult dogs immuno-electron-microscopic localization degrade oxidatively-denaturated proteins mouse brown fat msg-induced obese mice establish ucp-dependent thermogenesis white adipose tissue adipocytes accumulated lipids lipoprotein lipase mrna brown fat tissue october 1991 volume 266 privacy choices/manage cookies tissue research aims full article pdf active brown fat rat brown fat mitochondrial-uncoupling protein mitochondrial uncoupling protein inguinal adipose tissue convertible adipose tissue uncoupling protein mrna fat selection lines brown adipose tissue express uncoupling protein uncoupling-protein concentration mitochondrial protein alteration related subjects lipase gene family brown-adiposetissue mitochondria cell tissue res brown fatty tissue article lončar skeletal muscle induced inguinal adipocytes adipose tissues european economic area acta univ oul proton translocation sites john libbey eurotext wenner-gren institute brown adipocytes intermittent cold treatment gemmell rt morphometrical analysis showed check access instant access immunoelectron microscopical studies human infants van nostrand reinhold

Questions {❓}

Sensing the oxygen and temperature in the adipose tissues – who’s sensing what?

Schema {🗺️}

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         headline:Convertible adipose tissue in mice
         description:Ability to express uncoupling protein (UCP) and establish UCP-dependent thermogenesis was analyzed in anatomical areas of mice that are generally considered to be white adipose tissue: mesenterial, perimetral, epididymal, inguinal, and superficial layer of interscapular white adipose tissue. The mice were acclimatized for 1 week to 4° C; the following week they were exposed to cold stress (1 h at-20° C, 2–3 times daily). In such conditions in inguinal adipose tissue, slot-blot analysis detected significant amount of UCP mRNA and lipoprotein lipase mRNA. Immuno-electron-microscopic localization of UCP showed that developed mitochondria of cold-stressed inguinal adipocytes contained UCP in the same amount as uncoupled (UC)-mitochondria of brown adipocytes. Morphological and morphometrical analysis showed that such inguinal adipose tissue appeared as brown adipose tissue. Since in control mice, inguinal adipose tissue was UCP-negative and tissue appeared as white adipose tissue, the duration of this white-to-brown adipose tissue conversion was analyzed. Mice, cold stressed for 1 week, were rewarmed at 28° C and their inguinal adipose tissue was analyzed in comparison with interscapular brown adipose tissue and epididymal white adipose tissue for another 37 days. During that time inguinal adipocytes ceased expressing UCP mRNA; UC-mitochondria in inguinal adipocytes were destroyed and replaced with common, C-mitochondria; and UCP was undetectable immunohistochemically. Adipocytes accumulated lipids, and the tissue morphologically once again resembled white adipose tissue. Described changes showed that besides typical brown and white adipose tissue in mice, there existed a third type of adipose tissue described as convertible adipose tissue.
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      headline:Convertible adipose tissue in mice
      description:Ability to express uncoupling protein (UCP) and establish UCP-dependent thermogenesis was analyzed in anatomical areas of mice that are generally considered to be white adipose tissue: mesenterial, perimetral, epididymal, inguinal, and superficial layer of interscapular white adipose tissue. The mice were acclimatized for 1 week to 4° C; the following week they were exposed to cold stress (1 h at-20° C, 2–3 times daily). In such conditions in inguinal adipose tissue, slot-blot analysis detected significant amount of UCP mRNA and lipoprotein lipase mRNA. Immuno-electron-microscopic localization of UCP showed that developed mitochondria of cold-stressed inguinal adipocytes contained UCP in the same amount as uncoupled (UC)-mitochondria of brown adipocytes. Morphological and morphometrical analysis showed that such inguinal adipose tissue appeared as brown adipose tissue. Since in control mice, inguinal adipose tissue was UCP-negative and tissue appeared as white adipose tissue, the duration of this white-to-brown adipose tissue conversion was analyzed. Mice, cold stressed for 1 week, were rewarmed at 28° C and their inguinal adipose tissue was analyzed in comparison with interscapular brown adipose tissue and epididymal white adipose tissue for another 37 days. During that time inguinal adipocytes ceased expressing UCP mRNA; UC-mitochondria in inguinal adipocytes were destroyed and replaced with common, C-mitochondria; and UCP was undetectable immunohistochemically. Adipocytes accumulated lipids, and the tissue morphologically once again resembled white adipose tissue. Described changes showed that besides typical brown and white adipose tissue in mice, there existed a third type of adipose tissue described as convertible adipose tissue.
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