1. They live in the land down under: thyroid function and basal metabolic rate in the Blind Mole Rat, Spalax.
- Author
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Avivi, Aaron, Nevo, Eviatar, Cohen, Keren, Sotnichenko, Nick, Hercbergs, Aleck, Band, Mark, Davis, Paul J., Ellis, Martin, and Ashur-Fabian, Osnat
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THYROID hormones ,UKRAINIAN blind mole rats ,BASAL metabolism ,BLOOD plasma ,CROSSING over (Genetics) ,BIOLOGICAL transport ,THYROGLOBULIN - Abstract
The Israeli blind subterranean mole rat ( Spalax ehrenbergi superspecies) lives in sealed underground burrows under extreme, hypoxic conditions. The four Israeli Spalax allospecies have adapted to different climates, the cool-humid ( Spalax galili, 2 n = 52 chromosomes), semihumid ( S. golani, 2 n = 54) north regions, warm-humid ( S. carmeli, 2 n = 58) central region and the warm-dry S. judaei, 2 n = 60) southern regions. A dramatic interspecies decline in basal metabolic rate (BMR) from north to south, even after years of captivity, indicates a genetic basis for this BMR trait. We examined the possibility that the genetically-conditioned interspecies BMR difference was expressed via circulating thyroid hormone. An unexpected north to south increase in serum free thyroxine (FT4) and total 3, 5, 3′-triiodo-L-thyronine (T3) ( p < 0.02) correlated negatively with previously published BMR measurements. The increases in serum FT4 and T3 were symmetrical, so that the T3:FT4 ratio - interpretable as an index of conversion of T4 to T3 in nonthyroidal tissues - did not support relative decrease in production of T3 as a contributor to BMR. Increased north-to-south serum FT4 and T3 levels also correlated negatively with hemoglobin/hematocrit. North-to-south adaptations in spalacids include decreased BMR and hematocrit/hemoglobin in the face of increasing thyroid hormone levels, arguing for independent control of hormone secretion and BMR/hematocrit/hemoglobin. But the significant inverse relationship between thyroid hormone levels and BMR/hematocrit/hemoglobin is also consistent with a degree of cellular resistance to thyroid hormone action that protects against hormone-induced increase in oxygen consumption in a hostile, hypoxic environment. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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