Genetic Interaction between Hyperglycemic QTLs Is Manifested under a High Calorie Diet in OLETF-Derived Congenic Rats

Genetic Interaction between Hyperglycemic QTLs Is Manifested under a High Calorie Diet in OLETF-Derived Congenic Rats

The condition of hyperglycemia results from multiple genetic and environmental factors. In recent years much progress has been made with regards to the search for candidate genes involved in the expression of various common diseases including type 2 diabetes. However less is known about the specific...

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Bibliographic Details
Published in:Experimental Animals Vol. 60; no. 2; pp. 125 - 132
Main Authors: FUKUMURA, Tomoe, KOSE, Hiroyuki, TAKEDA, Chiyo, KURITA, Yuko, OCHIAI, Kazuhiko, YAMADA, Takahisa, MATSUMOTO, Kozo
Format: Journal Article
Language:English
Published: Japan Japanese Association for Laboratory Animal Science 2011
Subjects:
Animals
Blood Glucose - analysis
congenic rat
Diabetes Mellitus, Type 2 - genetics
Disease Models, Animal
Energy Intake
epistasis
Glucose Tolerance Test
Hyperglycemia - genetics
Hyperinsulinism - genetics
Insulin
Multifactorial Inheritance
QTL
Quantitative Trait Loci
Rats
Rats, Inbred OLETF
type 2 diabetes
Weight Gain
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Summary:The condition of hyperglycemia results from multiple genetic and environmental factors. In recent years much progress has been made with regards to the search for candidate genes involved in the expression of various common diseases including type 2 diabetes. However less is known about the specific genetic and environmental connections that are important for the development of the disease. In the present study, we used hyperglycemic congenic rats to address this issue. When given a normal diet, two hyperglycemic QTLs (quantitative trait locus), Nidd2/of and Nidd10/of, showed mild obesity and/or increased blood glucose in the oral glucose tolerance test. In a double congenic strain possessing both loci, these indices were not significantly different from those of either single congenic strain. In contrast, the double congenic strain fed a high-calorie diet showed significantly greater body weight than the single congenic strains or normoglycemic control rats. Although postprandial glucose levels of the double congenic rat were not further aggravated even on the high fat diet, it was notable that the postprandial insulin levels were drastically elevated. From these results, we constructed a novel model animal especially for the study of prediabetic hyperinsulemia, in which two QTLs and an additional dietary condition are involved. This may help to shed light on the genetic basis and gene-to-diet interaction during the early stage of type 2 diabetes.
ISSN:1341-1357
1881-7122
DOI:10.1538/expanim.60.125