Abstract
The K cell is a specific sub-type of enteroendocrine cell located in the proximal small intestine that produces glucose-dependent insulinotropic polypeptide (GIP), xenin, and potentially other unknown hormones. Because GIP promotes weight gain and insulin resistance, reducing hormone release from K cells could lead to weight loss and increased insulin sensitivity. However, the consequences of coordinately reducing circulating levels of all K cell-derived hormones are unknown. To reduce the number of functioning K cells, regulatory elements from the rat GIP promoter/gene were used to express an attenuated diphtheria toxin A chain in transgenic mice. K cell number, GIP transcripts, and plasma GIP levels were profoundly reduced in the GIP/DT transgenic mice. Other enteroendocrine cell types were not ablated. Food intake, body weight, and blood glucose levels in response to insulin or intraperitoneal glucose were similar in control and GIP/DT mice fed standard chow. In contrast to single or double incretin receptor knock-out mice, the incretin response was absent in GIP/DT animals suggesting K cells produce GIP plus an additional incretin hormone. Following high fat feeding for 21-35 weeks, the incretin response was partially restored in GIP/DT mice. Transgenic versus wild-type mice demonstrated significantly reduced body weight (25%), plasma leptin levels (77%), and daily food intake (16%) plus enhanced energy expenditure (10%) and insulin sensitivity. Regardless of diet, long term glucose homeostasis was not grossly perturbed in the transgenic animals. In conclusion, studies using GIP/DT mice demonstrate an important role for K cells in the regulation of body weight and insulin sensitivity.
Highlights
glucosedependent insulinotropic polypeptide (GIP) is produced almost exclusively by K cells located in the proximal small intestine and is secreted immediately after ingestion of a meal [4, 5, 12, 13]
Mice lacking GIP receptors (GIPRϪ/Ϫ) exhibited only a subtle defect in glucose homeostasis [38] and were protected from the development of obesity and insulin resistance when placed on a high fat diet [21]
The respiratory quotient was similar in both lines of mice. These results suggest that decreased food intake coupled with increased energy expenditure accounts for the reduced body weight of the GIP/diphtheria toxin A chain (DT) mice fed a high fat diet
Summary
A 1-kb fragment containing the SV40 3Ј-UTR was PCR-amplified from pGL2 basic and cloned downstream of the RFP stop codon. Production of Transgenic Mice—GIP/RFP and GIP/DT transgenic mice were produced on a C57BL/6J background through the Washington University School of Medicine Diabetes and Research Training Center Transgenic Core using standard pronuclear injection techniques. To estimate the number of EE cells that co-express GLP-1 plus GIP, Swiss rolls of mouse small intestines from wild-type C57BL/6J mice were double-labeled using guinea pig anti-GIP plus rabbit anti-GLP-1 antibodies [42]. Aliquots of cDNA were amplified using the Applied Biosystems 7500 Fast system with the indicated TaqMan gene expression assay and normalized to the amount of -actin mRNA present in the same sample.
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