AI Article Synopsis

  • Increased protease activity in plasma and fat tissue is linked to type 2 diabetes and obesity, suggesting that certain proteases may trigger inflammation and metabolic disease associated with obesity.
  • Research on a specific protease, kallikrein-related peptidase 7 (KLK7), shows that its absence in fat tissue helps maintain insulin sensitivity and reduces inflammation in obese mice, leading to less weight gain.
  • Whole body knockout of KLK7 resulted in lower body weight and fat mass, enhanced insulin response, and increased fat tissue thermogenesis, indicating potential therapeutic use of KLK7 inhibitors to combat obesity and related metabolic disorders.

Article Abstract

Increased plasma and adipose tissue protease activity is observed in patients with type 2 diabetes and obesity. It has been proposed that specific proteases contribute to the link between obesity, adipose tissue inflammation and metabolic diseases. We have recently shown that ablation of the serine protease kallikrein-related peptidase 7 () specifically in adipose tissue preserves systemic insulin sensitivity and protects mice from obesity-related AT inflammation. Here, we investigated whether whole body knockout () mice develop a phenotype distinct from that caused by reduced expression in adipose tissue. Compared to littermate controls, mice gain less body weight and fat mass both under chow and high fat diet (HFD) feeding, are hyper-responsive to exogenous insulin and exhibit preserved adipose tissue function due to adipocyte hyperplasia and lower inflammation. mice exhibit increased adipose tissue thermogenesis, which is not related to altered thyroid function. These data strengthen our recently proposed role of in the regulation of body weight, energy metabolism, and obesity-associated adipose tissue dysfunction. The protective effects of deficiency in obesity are likely linked to a significant limitation of adipocyte hypertrophy. In conclusion, our data indicate potential application of specific KLK7 inhibitors to regulate KLK7 activity in the development of obesity and counteract obesity-associated inflammation and metabolic diseases.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7912635PMC
http://dx.doi.org/10.3390/biomedicines9020131DOI Listing

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