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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The development of type 1 (insulin dependent)
diabetes mellitus
(IDDM) requires a genetically susceptible host and exposure, early in life, to environmental trigger molecules that induce diabetic autoimmunity to insulin producing islet cells. We previously identified islet cell protein p69 as a candidate autoimmune target in IDDM. Here we describe a human genomic p69 fragment which allowed us to map the gene (
ICA1
) to chromosome 7p22.
...
PMID:ICA1 encoding p69, a protein linked to the development of type 1 diabetes, maps to human chromosome 7p22. 816 6
We have identified a novel 69-kD peptide autoantigen (ICA69) associated with insulin-dependent
diabetes mellitus
(IDDM) by screening a human islet lambda gt11 cDNA expression library with cytoplasmic islet cell antibody positive sera from relatives of IDDM patients who progressed to the overt disease. The deduced open reading frame of the ICA69 cDNA predicts a 483-amino acid protein. ICA69 shows no nucleotide or amino acid sequence relation to any known sequence in GenBank, except for two short regions of similarity with BSA. The ICA69 cDNA probe hybridizes with a 2-kb mRNA in poly(A+) RNA from human pancreas, brain, heart, thyroid, and kidney, but not with skeletal muscle, placenta, spleen, or ovary. Expression of ICA69 was also detected in beta cells and cell lines, as well as in tumoral tissue of islet cell origin. The native ICA69 molecule migrates to 69 kD in SDS-PAGE as detected with specific antibodies. Serum samples from relatives of IDDM patients specifically reacted with affinity-purified recombinant ICA69 on Western blotting. The structural gene for ICA69 was designated
ICA1
. A homologue in the mouse, designated Ica-1 was mapped to the proximal end of chromosome 6 (within 6 cM of the Met protooncogene). ICA69 adds a novel autoantigen to the family of identified islet target molecules, and by the manner of its identification and characterization large amounts of antigen are available for development of quantitative, convenient predictive assays for autoantibodies and analysis of the role of this molecule in
diabetes
autoimmunity, as well as its physiologic function.
...
PMID:Islet cell autoantigen 69 kD (ICA69). Molecular cloning and characterization of a novel diabetes-associated autoantigen. 832 4
Islet cell autoantigen 69-kDa (ICA69), protein product of the human
ICA1
gene, is one target of the immune processes defining the pathogenesis of Type 1
diabetes
. We have characterized the genomic structure and functional promoters within the 5'-regulatory region of
ICA1
. 5'-RNA ligase-mediated rapid amplification of cDNA ends evaluation of
ICA1
transcripts expressed in human islets, testis, heart, and cultured neuroblastoma cells reveals that three 5'-untranslated region exons are variably expressed from the
ICA1
gene in a tissue-specific manner. Surrounding the transcription initiation sites are motifs characteristic of non-TATA, non-CAAT, GC-rich promoters, including consensus Sp1/GC boxes, an initiator element, cAMP-responsive element-binding protein (CREB) sites, and clusters of other putative transcription factor sites within a genomic CpG island. Luciferase reporter constructs demonstrate that the first two
ICA1
exon promoters reciprocally stimulate luciferase expression within islet- (RIN 1046-38 cells) and brain-derived (NMB7) cells in culture; the exon A promoter exhibits greater activity in islet cells, whereas the exon B promoter more efficiently activates transcription in neuronal cells. Mutation of a CREB site within the
ICA1
exon B promoter significantly enhances transcriptional activity in both cell lines. Our basic understanding of expression from the functional core promoter elements of
ICA1
is an important advance that will not only add to our knowledge of the ICA69 autoantigen but will also facilitate a rational approach to discover the function of ICA69 and to identify relevant
ICA1
promoter polymorphisms and their potential associations with disease.
...
PMID:Alternative core promoters regulate tissue-specific transcription from the autoimmune diabetes-related ICA1 (ICA69) gene locus. 1240 89
