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Autoimmunity. 1993;16(3):181-8.
Modulation of beta-cell activity and its influence on islet cell antibody (ICA) and islet cell surface antibody (ICSA) reactivity.

Bjork E, Kampe O, Grawe J, Hallberg A, Norheim I, Karlsson FA.

Department of Internal Medicine, University Hospital, Uppsala University, Sweden.

Insulin-dependent diabetes mellitus (IDDM) is associated with the formation of autoantibodies against different antigens in the islets of Langerhans, so-called islet cell antibodies (ICA). The expression of a major autoantigen, the beta-cell specific enzyme glutamic acid decarboxylase (GAD), is glucose-dependent in vitro and correlated to insulin release in vitro. In this study the expression of islet autoantigens was examined in vivo and the relationship between beta-cell function and islet cell surface antibody (ICSA) reactivity was tested. Rats were fed for 10 days with glipizide or diazoxide, in order to stimulate or inhibit insulin release, respectively. Frozen sections of pancreata were incubated with ten ICA-positive IDDM sera and analyzed by indirect immunofluorescence. Two sera with a "beta-cell restricted" staining, five with an "all-islet cell" staining and three with a "mixed" pattern were employed. In all three groups, the highest end-point titres were obtained when pancreata of rats treated with glipizide were used. Intermediate titres were seen in control animals and the lowest titres were observed on pancreata from diazoxide-treated rats, regardless of the serum used. In contrast to these observations, no correlation between ICSA reactivity and islet cell activity could be demonstrated. Conflicting results concerning ICSA in previous reports and our failure to show a glucose regulation of ICSA reactivity, indicate that ICSA is a phenomenon with a low degree of specificity.(ABSTRACT TRUNCATED AT 250 WORDS)

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8003613&dopt=Abstract

J Biol Chem. 1994 Jul 8;269(27):17768-71.
Identification of a 38-kDa high affinity sulfonylurea-binding peptide in insulin-secreting cells and cerebral cortex.

Schwanstecher M, Loser S, Chudziak F, Panten U.

Institute of Pharmacology and Toxicology, University of Gottingen, Federal Republic of Germany.

Previous studies have described specific photoincorporation of radiolabeled sulfonylureas into a peptide with high molecular mass (140-175 kDa), which thus has been suggested to represent the sulfonylurea receptor. In the present study, a 125I-labeled 4-azidosalicyloyl analog of glibenclamide, 125I-N3-GA (N-[4-(2-(4-azido-2-hydroxy-5-125I- iodobenzamido)ethyl)benzenesulfonyl]-N'-cyclohexylurea), was used for photoaffinity labeling. This novel probe was specifically photoincorporated into a peptide with an apparent molecular mass of 160-175 kDa when samples from insulin-secreting HIT cells or cerebral cortex were boiled in a SDS-buffer prior to separation with SDS-polyacrylamide gel electrophoresis. However, omitting the heating step revealed specific labeling of an additional peptide with an apparent molecular mass of 38 kDa. The amount of radioactivity specifically photoincorporated into this peptide was 3-4-fold higher than that incorporated into the 160-175-kDa peptide. Both peptides displayed similar dissociation constants for binding of the sulfonylureas IN3-GA (N-[4-(2-(4-azido-2-hydroxy- 5-iodobenzamido)ethyl)benzenesulfonyl]-N'-cyclohexylurea), glibenclamide, glipizide, and tolbutamide. Analysis of photoaffinity labeling of solubilized fractions indicated an almost exclusive specific linkage to the 38-kDa peptide. The data support the view that the sulfonylurea receptor in insulin-secreting cells and cerebral cortex consists of a peptide with an apparent molecular mass of 38 kDa, which seems to be tightly coupled to a 160-175-kDa peptide.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8027029&dopt=Abstract

J Neurochem. 1994 Aug;63(2):698-708.
Photoaffinity labeling of the cerebral sulfonylurea receptor using a novel radioiodinated azidoglibenclamide analogue.

Schwanstecher M, Loser S, Chudziak F, Bachmann C, Panten U.

Institute of Pharmacology and Toxicology, University of Gottingen, Germany.

In previous studies evidence has been presented by photoaffinity labeling that a polypeptide of 145-150 kDa represents the cerebral sulfonylurea receptor. However, covalent incorporation of [3H]glibenclamide or a 125I-labeled glibenclamide analogue into the sulfonylurea receptor required high amounts of photoenergy and took place with low yield of photoinsertion. To provide a probe with increased photoreactivity a 4-azido-5-iodosalicyloyl analogue of glibenclamide was synthesized. Binding experiments revealed specific and reversible high-affinity binding of this novel probe to the particulate (KD = 0.13 nM) and solubilized (KD = 0.56 nM) sulfonylurea receptor from cerebral cortex. The novel probe showed > 100-fold higher sensitivity to irradiation at 356 nm than glibenclamide. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed specific photoincorporation into a cerebral protein of 175 kDa and indicated an efficiency of photoincorporation of 9%. From dissociation binding curves following irradiation photoincorporation was estimated as 28% of specifically bound ligand. Photoincorporation into the 175-kDa protein following saturation binding of the novel probe to particulate sites from cerebral cortex indicated a KD value of 0.38 nM. Inhibition of photoincorporation into this protein by glibenclamide, glipizide, and tolbutamide revealed KD values for these sulfonylureas of 0.06 nM, 1.6 nM, and 1.2 microM, respectively. These results show that the novel photoaffinity ligand can be used as a probe for detection and characterization of the sulfonylurea receptor and suggest that a 175-kDa protein represents the cerebral sulfonylurea receptor.

online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=8035194&dopt=Abstract

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