The presence of a mixed genetic background in most published studies of UCP2 or UCP3 gene-ablated mice also means that data concerning marked differences in diabetes propensity, infection sensitivity and production of reactive oxygen species may require confirmation in backcrossed mice.
Polymorphisms in the mitochondrial membrane transporter gene UCP2 are capable of affecting energy metabolism, body weight regulation, and possibly preventing the buildup of reactive oxygen species, all factors that could contribute to neural tube defect risk through maternal obesity and diabetes.
Inactivation of the Ucp2 gene, which is expressed in the pancreatic beta-cells, resulted in increased islet ATP, increased serum insulin levels, and suppression of the diabetes of the ob/ob mouse genotype.
We now report the discovery of a gene that codes for a novel uncoupling protein, designated UCP2, which has 59% amino-acid identity to UCP1, and describe properties consistent with a role in diabetes and obesity.