SerpinA3N in Leptin Receptor Neurons Regulates Metabolic Homeostasis and Cardiovascular Function
Abstract Body: Obesity and associated conditions such as type 2 diabetes are among the most concerning health issues in the U.S. Leptin receptor (LepR) signaling in the brain plays a pivotal role in the regulation of food intake and energy expenditure. SerpinA3N is a serine protease inhibitor which is highly expressed in the arcuate nucleus of the hypothalamus, upregulated in diet-induced obesity and by leptin stimulation. However, the role of SerpinA3N in the LepR expressing cells in the control of body weight and glucose homeostasis remain unknown. RNAseq analysis confirmed that SerpinA3N mRNA levels were significantly upregulated in the hypothalamus of mice fed high fat high sucrose diet (HFHSD) for 12 weeks. Using immunofluorescence staining, we confirmed that SerpinA3N is expressed the LepR positive cells of the hypothalamus. Next, we investigated whether loss of SerpinA3N in LepR expressing neurons affects metabolic and glucose homeostasis. For this, we crossed mice harboring floxed alleles of the SerpinA3N gene (SerpinA3Nfl/fl) with mice expressing Cre recombinase driven by the LepR (LepRbCre). We found that female, but not male, conditional knockout (CKO, LepRbCre/SerpinA3Nfl/fl) mice have significantly lower body weight when fed HFHSD. This lower body weight was due to decreased fat mass, measured by NMR. However, no alteration in food intake was observed between female CKO mice and controls, indicating that increased energy expenditure may account for the lower body weight in female CKO mice. Interestingly, CKO mice displayed exaggerated weight loss and anorectic response to leptin treatment (1 mg/g, twice daily, IP), indicating that loss of SerpinA3N enhances leptin sensitivity. Female CKO mice fed normal chow diet also exhibited enhanced insulin sensitivity compared to control animals. On the other hand, male CKO mice displayed significantly improved glucose handling, but no change in insulin sensitivity. Insulin-induced phosphorylation of AKT was elevated only in skeletal muscleof CKO mice relative to controls. Finally, systolic arterial blood pressure of CKO mice fed HFHSD trend to be lower during dark time compared to controls (142+6.4 vs 127.9+7.1 mmHg, p=0.06), although heart rate was not changed. These results demonstrate that SerpinA3N in LepRb-expressing neurons regulate energy and glucose homeostasis in a sex-dependent manner,and may protect from HFHSD induced hypertension.
Guo, Deng-fu
( UNIVERSITY IOWA
, Iowa City
, Iowa
, United States
)
Morgan, Donald
( UNIVERSITY IOWA
, Iowa City
, Iowa
, United States
)
Olson, Alexis
( UNIVERSITY IOWA
, Iowa City
, Iowa
, United States
)
Rahmouni, Kamal
( UNIVERSITY IOWA
, Iowa City
, Iowa
, United States
)
Author Disclosures:
Deng-Fu Guo:DO NOT have relevant financial relationships
| Donald Morgan:No Answer
| Alexis Olson:No Answer
| Kamal Rahmouni:DO NOT have relevant financial relationships