From the Department of Clinical Biochemistry, Islamic Azad University, Khorasgan Branch. Isfahan. , m_messripour@yahoo.com
Abstract: (5432 Views)
Antibodies directed against the enzyme glutamic acid decarboxylase (GAD)
are believed to be the main cause of destruction of pancreatic islet cells in type I
(insulin dependent) diabetes mellitus. The enzyme was found both in the brain
and pancreatic beta cells. Although similarities in identity of GAD in human and
rat brain have been demonstrated, little is known about the interaction between
the enzyme and antiserum in type 1 diabetic patients. In the present study GAD
was partially purified from rat brain homogenate. The four-step procedure involves,
sequentially, an ultracentrifugation, DEAE-cellulose, hydroxyapatite resin,
and Sephadex G-200 gel filtration chromatography. The enzyme activity was assayed
either manometrically or fluorimetrically. The results showed a positive
correlation between the rates of CO2 production with the changes of fluorescence
intensities of the enzyme after addition of glutamate. The collected fraction from
the gel filtration chromatography showed approximately 140-fold purification of
the enzyme with a 15% yield. The specific activity of the enzyme of brain supernatant
and the partially purified enzyme collected from every chromatographic
step was measured upon addition of the serum samples from type I diabetes (n=II).
A marked decrease in the rate of CO2 production or the change of fluorescence
intensities of the enzyme was observed, indicating an interaction between the
enzyme and the patients' sera. However, serum samples from healthy control
individuals had little effect on the enzyme activity of the partially purified GAD.
The results suggested that rat brain GAD might be used as an in vitro reagent for
screening of type I diabetes, using an enzyme inhibition assay.