Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Down syndrome is one of the major causes of mental retardation and congenital heart malformations. Other common clinical features of Down syndrome include gastrointestinal anomalies, immune system defects and Alzheimer's disease pathological and neurochemical changes. The most likely consequence of the presence of three copies of chromosome 21 is the overexpression of its resident genes, a fact which must underlie the pathogenesis of the abnormalities that occur in Down syndrome. Here we show that DSCR1, the product of a chromosome 21 gene highly expressed in brain, heart and skeletal muscle, is overexpressed in the brain of Down syndrome fetuses, and interacts physically and functionally with calcineurin A, the catalytic subunit of the Ca(2+)/calmodulin-dependent protein phosphatase PP2B. The DSCR1 binding region in calcineurin A is located in the linker region between the calcineurin A catalytic domain and the calcineurin B binding domain, outside of other functional domains previously defined in calcineurin A. DSCR1 belongs to a family of evolutionarily conserved proteins with three members in humans: DSCR1, ZAKI-4 and DSCR1L2. We further demonstrate that overexpression of DSCR1 and ZAKI-4 inhibits calcineurin-dependent gene transcription through the inhibition of NF-AT translocation to the nucleus. Together, these results suggest that members of this newly described family of human proteins are endogenous regulators of calcineurin-mediated signaling pathways and as such, they may be involved in many physiological processes.
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PMID:DSCR1, overexpressed in Down syndrome, is an inhibitor of calcineurin-mediated signaling pathways. 1086 Dec 95

The regulators of calcineurin (RCAN) proteins, previously known as calcipressins, have been considered to be a well conserved family from yeast to human based on the conservation of their FLISPP motif. Here, after performing a RCAN comparative genomic analysis we propose the existence of a novel functionally closely related RCAN subfamily restricted to vertebrates, the other RCAN proteins being considered only as distantly related members of the family. In addition, while three paralogous RCAN genes are found in vertebrates, there is only one in the other members of Eukarya. Moreover, besides the FLISPP motif, these paralogous genes have two others conserved motifs, the Cn-inhibitor RCAN (CIC) and the PxIxxT, which are restricted to vertebrates. In humans, RCAN1 and RCAN2 bind and inhibit Cn through their C-terminal region. Given the high amino acid identity in this region among human RCANs, authors in the field have hypothesized a role for RCAN3 in inhibiting Cn activity. Here, we demonstrate for the first time that human RCAN3, encoded by the RCAN3 (also known as DSCR1L2) gene, interacts physically and functionally with Cn. This interaction takes place only through the RCAN3 CIC motif. Overexpression of this sequence inhibits Cn activity towards the nuclear factor of activated T cells (NFAT) transcription factors and down-regulates NFAT-dependent cytokine gene expression in activated human Jurkat T cells.
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PMID:RCAN3, a novel calcineurin inhibitor that down-regulates NFAT-dependent cytokine gene expression. 1727 Feb 91

Human RCAN3 (Regulator of calcineurin 3; previously known as DSCR1L2, Down syndrome critical region gene 1-like 2) is a five-exon gene mapped on chromosome 1 and belongs to the human RCAN gene family which also includes RCAN1 and RCAN2. The novel denomination RCAN for genes and proteins, instead of DSCR1L (Down syndrome critical region gene 1-like) has recently been widely discussed. The aim of the present work was to perform a multiple approach analysis of five RCAN3 mRNA and encoded protein isoforms, two of which have been identified for the first time in this research. The two new RCAN3 mRNA isoforms, RCAN3-2,4,5, which lacks exon 3, and RCAN3-2,3,5, which lacks exon 4, were identified during RCAN3 RT-PCR (reverse transcription-polymerase chain reaction) cloning, the product of which unexpectedly revealed the presence of five isoforms as opposed to the three previously known. In order to analyze the expression pattern of the five RCAN3 mRNA isoforms in seven different human tissues, a quantitative relative RT-PCR was performed: interestingly, all isoforms are present in all tissues investigated, with a statistically significant constant prevalence of RCAN3 isoform (the most complete, "reference" isoform). The RCAN3 locus expression level was comparable in all seven tissues analyzed, considering all isoforms, which indicates a ubiquitous expression of this human RCAN family member. To date two possible interactors have been described for this protein: human cardiac troponin I (TNNI3) and calcineurin. Here we report the interaction between the new RCAN3 variants and TNNI3, demonstrated by both yeast cotransformation and by the GST (glutathione-sepharose transferase) fusion protein assay, as was to be expected from the presence of exon 2 whose product has been seen to be sufficient for binding to TNNI3.
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PMID:Identification and analysis of human RCAN3 (DSCR1L2) mRNA and protein isoforms. 1802 29