In crosses of NOD mice with a series of normal strains, inheritance overt diabetes is correlated with inheritance of the NOD's unique I-A beta gene, though the bulk of islet destruction and insulitis can occur independent of MHC inheritance.
We therefore analyzed fasting proinsulin levels in 99 siblings of insulin-dependent diabetes mellitus (IDDM) patients, most of them discordant for diabetes for greater than 6 yr.
In contrast to the one previous linkage analysis study of the insulin receptor gene, no specific association of diabetes with the rare Sst1 S1(-) allele was observed in either the maturity onset diabetes of the young or the Type 2 diabetic families.
In a multivariate analysis glutamic pyruvic transaminase, blood glucose, body mass index, bilirubin, systolic blood pressure, uric acid and a family history of diabetes were all significantly associated with the development of diabetes.
We conclude that increased fasting proinsulin levels precede abnormalities of insulin secretion, and are an early indication of minor B-cell damage in these twins irrespective of their risk of developing diabetes.
Seventy IDDM patients (insulin-dependent diabetics), 48 females and 22 males, most of them adults at the onset of diabetes, and suffering from at least one other associated autoimmune manifestation (AAM) were studied for HLA A,B,C, DR markers and Bf, C4 complement components.
The etiological fraction (EF) values indicated that HLA D/DR alleles were the best markers for IDDM, the observed EF for HLA-DR4 in diabetes was as high as 0.70.
In order to study the heterogeneity of Type 2 (noninsulin-dependent) diabetes, we determined HLA antigens and measured B-cell function as C-peptide response to intravenous glucagon in 217 patients with onset of non-ketotic diabetes after the age of 40 years.
The presence of albumin antibodies was neither related to the presence of diabetic late complications, islet cell antibodies, HLA-status nor duration of diabetes.
Islet cell antibodies (ICA-IgG and complement-fixing-ICA), parietal cell antibodies (PCA), intestinal epithelial cell antibodies (IECA), thyroglobulin (TgA) and thyroid microsomal antibodies (MsA), antinuclear (ANA) and reticulin antibodies (RA), were studied in 55 insulin-dependent diabetic patients (30 males and 25 females), aged 2-19 years with diabetes from a few days up to 14 years.
The greater the severity of the diabetes (greater fasting hyperglycemia) the greater the post-receptor defect, and in those patients with more significant fasting hyperglycemia the post-receptor defect is the predominant abnormality leading to the insulin resistant state.
The greater the severity of the diabetes (greater fasting hyperglycemia) the greater the post-receptor defect, and in those patients with more significant fasting hyperglycemia the post-receptor defect is the predominant abnormality leading to the insulin resistant state.
However, we did find interactions between GM, HLA-DR, and Type 1 diabetes (significant or of borderline significance after considering the effect of multiple tests): possession of Glm(2) appeared to increase susceptibility to diabetes in individuals who had HLA-DR3 but not HLA-DR4, while possession of G3m(5) appeared to increase susceptibility in individuals who had HLA-DR4 but not HLA-DR3.
If extended to human insulin and different HLA-DR and HLA-B antigen patterns, these finding should help in the therapeutic selection of the appropriate insulin and thus reduce the induction of an anti-insulin response in patients with diabetes.
HLA-A, B, C, and DR antigen frequencies in relation to development of diabetes and variations in white cell antibody formation in highly transfused thalassemia patients.
Newer terminology identifies those uncommon patients with true insulin deficiency as having insulin-dependent diabetes (IDDM), while the majority of patients with diabetes have some residual insulin secretion but may have a disorder of insulin receptor number or affinity.
These results do not define a clear cataract-SORD deficiency etiopathogenic relationship, nevertheless, they strongly suggest activity polymorphism in human red cell SORD, which would be highly relevant not only to the study of cataracts but of other major complications in diabetes.
This suggests that there may be a gene closely linked with the HLA-A locus which plays a role in the expression of diabetes in the Pimas by contributing to an earlier age of onset.
Impaired bone formation due to defective osteoblast function, as reflected in a decreased serum osteocalcin (OC) concentration in the patients with diabetes, has been implicated in the development of diabetic osteopenia.
The understanding of GLP-1 receptor regulation and signal transduction will aid in the discovery of compounds that act as agonists of the GLP-1 receptor for potential use in the treatment of diabetes and will facilitate the understanding of its expression under normal and pathophysiological conditions.
The glucokinase and mitochondrial tRNA(Leu(UUR)) genes were screened for mutations in at least one affected subject from each family in order to assess the contribution of mutations in these genes to the development of the diabetes.