Endocrinology & Metabolic Syndrome
Open Access
ISSN: 2161-1017
+44 1478 350008
ISSN: 2161-1017
+44 1478 350008
Viola Pomozi,Krisztina Fulop,Eszter Kozas,Natalis Tokesi,Andras Varadi
Institute of Enzimology, RCNS, Budapest, Hungary
Scientific Tracks Abstracts: EMS
Cardiovascular calcification is commonly associated with diabetes mellitus (DM) and diabetic kidney disease (DKD), and is a leading cause of death in diabetic patients. Mutations in the gene encoding the ABCC6 transporter result in similar cardiovascular calcification as observed in diabetic patients (without other diabetic symptoms). The protective role of ABCC6 in soft tissue calcification is thought to be due to its role in controlling plasma pyrophosphate (PPi) level. In order to evaluate the molecular mechanisms underlying the pathological calcification symptoms in DM and DKD and to clarify the potential role of ABCC6 in these processes, we chemically induced Type I diabetes in wt, Abcc6+/- and Abcc6-/- mice. Our preliminary results show that diabetic mice have hyperglicemia, increased plasma urea and creatinine, and decreased plasma albumin levels, as expected. Diabetic Abcc6-/- mice develop more pronounced vascular calcification compared to Abcc6-/- controls. We also found that PPi levels both in plasma and in urine of diabetic mice are decreased. We are currenlty investigating the efficacy of PPi treatment in the prevention of cardiovascular calcification developing under diabetic conditions. This mouse model provides an excellent tool to investigate/discover important key regulators of diabetes-related vascular calcification, and therefore may help to find new targets for the prevention of vascular calcification and early biomarkers in the progression of the disease. The contribution of ABCC6 is particularly important as the estimated frequency of heterozygous carriers of ABCC6 mutations in the general population is 1 in 80.
Viola Pomozi is a biologist, obtained her PhD in the field of molecular biology. She has been working at the Institute of Enzimology (Research Centre for Natural Sciences, Budapest) since 2005. From 2015 she has spent three years at John A. Burns School of Medicine, University of Hawaii as a postdoctoral fellow. In both research groups they were focusing on an ABC trasporter protein, ABCC6. Mutations in the coding gene lead to pathological calcification in soft tissues. Using Abcc6 knockout mice they are investigating the molecular mechanisms of soft tissue calcification and are testing potential preventive treatments. Their recent findings indicate that supplementing pyrophosphate, an endogenous calcification inhibitor, may be effective in the prevention of soft tissue calcification. Recently they started to investigate other pathological conditions as well leading to soft tissue calcification, including diabetes. They developed a mouse model suitable to study diabetes-related vascular calcification.