Frontiers in Physiology (Aug 2022)

A sensitive mitochondrial thermometry 2.0 and the availability of thermogenic capacity of brown adipocyte

  • Xiao-Yan Meng,
  • Xiao-Yan Meng,
  • Xiao-Yan Meng,
  • Dian-Dian Wang,
  • Dian-Dian Wang,
  • Dian-Dian Wang,
  • Tao-Rong Xie,
  • Tao-Rong Xie,
  • Run-Zhou Yang,
  • Chun-Feng Liu,
  • Dan-Hua Liu,
  • Dan-Hua Liu,
  • Dan-Hua Liu,
  • Shu-Ang Li,
  • Yi Luan,
  • Jian-Sheng Kang,
  • Jian-Sheng Kang,
  • Jian-Sheng Kang

DOI
https://doi.org/10.3389/fphys.2022.977431
Journal volume & issue
Vol. 13

Abstract

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The temperature of a living cell is a crucial parameter for cellular events, such as cell division, gene expressions, enzyme activities and metabolism. We previously developed a quantifiable mitochondrial thermometry 1.0 based on rhodamine B methyl ester (RhB-ME) and rhodamine 800 (Rh800), and the theory for mitochondrial thermogenesis. Given that the synthesized RhB-ME is not readily available, thus, a convenient mitochondrial thermometry 2.0 based on tetra-methyl rhodamine methyl ester (TMRM) and Rh800 for the thermogenic study of brown adipocyte was further evolved. The fluorescence of TMRM is more sensitive (∼1.4 times) to temperature than that of RhB-ME, then the TMRM-based mito-thermometry 2.0 was validated and used for the qualitatively dynamic profiles for mitochondrial thermogenic responses and mitochondrial membrane potential in living cells simultaneously. Furthermore, our results demonstrated that the heterogenous thermogenesis evoked by β3 adrenoceptor agonist only used overall up to ∼46% of the thermogenic capacity evoked by CCCP stimulation. On the other hand, the results demonstrated that the maximum thermogenesis evoked by NE and oligomycin A used up to ∼79% of the thermogenic capacity, which suggested the maximum thermogenic capacity under physiological conditions by inhibiting the proton-ATPase function of the mitochondrial complex V, such as under the cold activation of sympathetic nerve and the co-release of sympathetic transmitters.

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