Scientific Reports (Oct 2023)

A protein kinase C α and β inhibitor blunts hyperphagia to halt renal function decline and reduces adiposity in a rat model of obesity-driven type 2 diabetes

  • Ju Wang,
  • Agustin Casimiro-Garcia,
  • Bryce G. Johnson,
  • Jennifer Duffen,
  • Michael Cain,
  • Leigh Savary,
  • Stephen Wang,
  • Prashant Nambiar,
  • Matthew Lech,
  • Shanrong Zhao,
  • Li Xi,
  • Yutian Zhan,
  • Jennifer Olson,
  • James A. Stejskal,
  • Hank Lin,
  • Baohong Zhang,
  • Robert V. Martinez,
  • Katherine Masek-Hammerman,
  • Franklin J. Schlerman,
  • Ken Dower

DOI
https://doi.org/10.1038/s41598-023-43759-7
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 16

Abstract

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Abstract Type 2 diabetes (T2D) and its complications can have debilitating, sometimes fatal consequences for afflicted individuals. The disease can be difficult to control, and therapeutic strategies to prevent T2D-induced tissue and organ damage are needed. Here we describe the results of administering a potent and selective inhibitor of Protein Kinase C (PKC) family members PKCα and PKCβ, Cmpd 1, in the ZSF1 obese rat model of hyperphagia-induced, obesity-driven T2D. Although our initial intent was to evaluate the effect of PKCα/β inhibition on renal damage in this model setting, Cmpd 1 unexpectedly caused a marked reduction in the hyperphagic response of ZSF1 obese animals. This halted renal function decline but did so indirectly and indistinguishably from a pair feeding comparator group. However, above and beyond this food intake effect, Cmpd 1 lowered overall animal body weights, reduced liver vacuolation, and reduced inguinal adipose tissue (iWAT) mass, inflammation, and adipocyte size. Taken together, Cmpd 1 had strong effects on multiple disease parameters in this obesity-driven rodent model of T2D. Further evaluation for potential translation of PKCα/β inhibition to T2D and obesity in humans is warranted.