EC:3.1.3.16 - FACTA Search

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

sds22 is a regulatory polypeptide of protein phosphatase-1 that is required for the completion of mitosis in both fission and budding yeast. We report here the cDNA cloning of a human polypeptide that is 46% identical to yeast sds22. The human homolog of sds22 consists of 360 residues, has a calculated molecular mass of 41.6 kDa and shows a tandem array of 11 leucine-rich repeat structures of 22 residues. Northern analysis revealed a major transcript of 1.39 kb in all 8 investigated human tissues. sds22 was detected by western analysis in both the cytoplasm and the nucleus of rat liver cells as a polypeptide of 44 kDa.
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PMID:Molecular cloning of a human polypeptide related to yeast sds22, a regulator of protein phosphatase-1. 749 85

The RNA1 gene from Saccharomyces cerevisiae is defined by the temperature-sensitive rna1-1 mutation that interferes with the maturation and/or nucleocytoplasmic transport of RNA. We describe the purification of a 44-kDa protein from the evolutionary distant fission yeast Schizosaccharomyces pombe and the cloning and sequence analysis of the corresponding gene. Although this protein shares only 42% sequence identity with the RNA1 gene product, it represents a functional homologue because the expression of the S. pombe gene in S. cerevisiae complements the rna1-1 defect. Disruption in S. pombe of the gene encoding the 44-kDa protein, for which we propose the name S. pombe rna1p, reveals that it is essential for growth. Our analysis of purified S. pombe rna1p represents the first biochemical characterization of an RNA1 gene product and reveals that it is a monomeric protein of globular shape. Cell fractionation and immunofluorescence microscopy indicate that rna1p is a cytoplasmic protein possibly enriched in the nuclear periphery. We identify a sequence motif of 29 residues, which is rich in leucine and repeated eight times both in S. pombe and in S. cerevisiae rna1p. Similar leucine-rich repeats present in a series of other proteins, e.g., the mammalian ribonuclease/angiogenin inhibitor, adenylyl cyclase from S. cerevisiae, the toll protein from Drosophila melanogaster, and the sds22 protein phosphatase regulatory subunit from S. pombe, are thought to be involved in protein-protein interactions. Thus rna1p may act as a scaffold protein possibly interacting in the nuclear periphery with a protein ligand that could be associated with exported RNA.
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PMID:A functional homologue of the RNA1 gene product in Schizosaccharomyces pombe: purification, biochemical characterization, and identification of a leucine-rich repeat motif. 837 68

sds22 is a regulatory subunit of protein phosphatase-1 that is required for the completion of mitosis in yeast. It consists largely of 11 tandem leucine-rich repeats of 22 residues that are expected to mediate interactions with other polypeptides, including protein phosphatase-1. In this paper, we report on the structure of the human gene encoding sds22, designated PPP1R7. This gene (33 kb) comprises 11 exons, but these do not coincide with the sequences encoding the leucine-rich repeats. Up to six splice variants can be generated by exon skipping and alternative polyadenylation, as revealed by expressed sequence tag database analysis, RT-PCR and Northern blot analysis. The sds22 transcripts are expected to encode four different polypeptides. sds22alpha1 corresponds to the variant cloned previously from human brain [Renouf et al. (1995) FEBS Lett. 375, 75-78]. Sds22beta1 is truncated within the ninth repeat and has a short and different C-terminus. Both variants also exist without the sequence corresponding to exon 2, and these are termed sds22alpha2 and sds22beta2. The 5'-flanking region of PPP1R7 contains two NF-Y-binding CCAAT boxes near the transcription start site and potential binding sites for the transcription factors c-Myb, Ik-2 and NF-1, which are conserved in the mouse gene.
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PMID:Structure and splice products of the human gene encoding sds22, a putative mitotic regulator of protein phosphatase-1. 1023 61

Two cDNAs sequences (1320 bp and 1180 bp) of the 55-kDa subunit associated with a testis-specific serine/threonine protein phosphatase 1gamma2 (PP1gamma2) were cloned. They were the same up to 1180 bp, suggesting that they may be generated by alternative splicing. Sequence studies showed that the 1320 bp-cDNA is a homolog of the human sds22alpha(1) (thus, named rat sds22alpha(1)). The 1180 bp-cDNA is a new splice-variant since its sequence at the 3' end has not been identified in human sds22 genes (named rat sds22alpha(3)). The 1320 bp-cDNA is ubiquitously expressed in various tissues including the immature testis. However, the expression of 1180 bp-cDNA was only observed in the testis after puberty. This expression pattern matches very well with that of PP1gamma2, suggesting that 1180 bp-cDNA may encode the 55-kDa subunit to associate with PP1gamma2 in rat testis and is involved in spermatogenesis by controlling PP1gamma2 activity.
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PMID:A sds22 homolog that is associated with the testis-specific serine/threonine protein phosphatase 1gamma2 in rat testis. 1089 57

Sds22p is a conserved, leucine-rich repeat protein that interacts with the catalytic subunit of protein phosphatase 1 (PP1(C)) and which has been proposed to regulate one or more functions of PP1(C) during mitosis. Here we show that Saccharomyces cerevisiae Sds22p is a largely nuclear protein, most of which is present as a sTable 1:1 complex with yeast PP1(C) (Glc7p). Temperature-sensitive (Ts(-)) S. cerevisiae sds22 mutants show profound chromosome instability at elevated growth temperatures but do not confer a cell cycle stage-specific arrest. In the sds22-6 Ts(-) mutant, nuclear Glc7p is both reduced in level and aberrantly localized at 37 degrees C and the interaction between Glc7p and Sds22p in vitro is reduced at higher temperatures, consistent with the in vivo Ts(-) growth defect. Like some glc7 mutations, sds22-6 can suppress the Ts(-) growth defect associated with ipl1-2, a loss of function mutation in a protein kinase that is known to work in opposition to PP1 on at least two nuclear substrates. This, together with reciprocal genetic interactions between GLC7 and SDS22, suggests that Sds22p functions positively with Glc7p to promote dephosphorylation of nuclear substrates required for faithful transmission of chromosomes during mitosis, and this role is at least partly mediated by effects of Sds22p on the nuclear distribution of Glc7p
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PMID:Essential functions of Sds22p in chromosome stability and nuclear localization of PP1. 1180 37

Antipeptide antibodies generated against the N terminus of the protein phosphatase 1 (PP1) binding protein sds22 detected at least four forms of the protein in a rat liver nuclear extract. Four of these immunoreactive bands likely correspond to four predicted forms of sds22 that are generated by alternative splicing. These four proteins are expressed at different levels and appear to be localized exclusively in the nucleus, and two of these proteins copurify with PPI on the protein phosphatase affinity matrix microcystin-Sepharose. Two higher molecular mass nuclear proteins that are immunoreactive with the sds22 antibodies also copurify on microcystin-Sepharose and may be novel forms of sds22 expressed in mammalian cells.
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PMID:Detection of multiple splice variants of the nuclear protein phosphatase 1 regulator sds22 in rat liver nuclei. 1255 14

Testis- and sperm-specific protein phosphatase, PP1gamma2, is a key enzyme regulating sperm function. Its activity decreases during sperm maturation in the epididymis. Inhibition of PP1gamma2 leads to motility initiation and stimulation. Our laboratory is focused on identifying mechanisms responsible for the decline in PP1gamma2 activity during sperm motility initiation in the epididymis. Previously, using immuno-affinity chromatography, we showed that a mammalian homologue of yeast sds22 is bound to PP1gamma2 in motile caudal spermatozoa (Huang Z, et al. Biol Reprod 2002; 67:1936-1942). The objectives of this study were to determine: 1) stoichiometry of PP1gamma2-sds22 binding and 2) whether PP1gamma2 in immotile caput epididymal spermatozoa is bound to sds22. The enzyme from caudal and caput sperm extracts was purified by column chromatography. Immunoreactive PP1gamma2 and sds22 from both caudal and caput spermatozoa were found in the flow-through fraction of a DEAE-cellulose column. However, PP1gamma2 from caudal spermatozoa was inactive, whereas in caput spermatozoa it was active. The DEAE-cellulose flow-through fractions were next passed through a SP-sepharose column. Caudal sperm sds22 and PP1gamma2 coeluted in the gradient fraction. In contrast, caput sperm sds22 and PP1gamma2 were separated in the flow-through and gradient fractions, respectively. Further purification through a Superose 6 column showed that PP1gamma2-sds22 complex from caudal sperm was 88 kDa in size. Caput sperm sds22 and PP1gamma2 eluted at 60 kDa and 39 kDa, respectively. SDS-PAGE of these purified fractions revealed that in caudal sperm, the 88-kDa species is composed of sds22 (43 kDa) and PP1gamma2 (39 kDa), suggesting a 1:1 complex between these two proteins. PP1gamma2 bound to sds22 in this complex was inactive. Caput sperm sds22 eluting as a 60-kDa species was found to be associated with a 17-kDa protein (p17). This suggests that dissociation of sds22 from p17 or some other posttranslational modification of sds22 is required for its binding and inactivation of PP1gamma2. Studies are currently underway to determine the mechanisms responsible for development of sds22 binding to PP1gamma2 during epididymal sperm maturation.
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PMID:Binding and inactivation of the germ cell-specific protein phosphatase PP1gamma2 by sds22 during epididymal sperm maturation. 1282 76

The intracellular mediators cyclic AMP, calcium and pH regulate sperm function through changes in protein phosphorylation. Protein phosphorylation is the net result of the actions of protein kinases and phosphatases. The protein phosphatase isoform, PPlgamma2, with a unique C-terminus extension is highly enriched in spermatozoa and testis. Changes in PPlgamma2 catalytic activity, its phosphorylation, and binding to its regulatory proteins change during epididymal maturation. Thus PPgamma2 is a key protein in sperm motility regulation; decreased enzyme activity is associated with increased motility. This review summarizes the current knowledge of this sperm protein phosphatase. The biochemical properties of its regulatory proteins, sds22 and protein 14-3-3, among others, are discussed. Future studies will elucidate sperm signalling pathways involving PP1gamma2 and determine if the unique structure of PP1gamma2 is critical to normal male gamete development and function. Understanding the role of PP1gamma2 will not only contribute to the basic understanding of male gamete functions but also has practical applications in clinical andrology and in the development of male contraceptives.
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PMID:Regulation of sperm function by protein phosphatase PP1gamma2. 1756 66

Mammalian spermatozoa acquire the capacity for motility and fertilization during the transit through the epididymis under the control of different factors, such as cAMP, intracellular pH, intracellular calcium and phosphorylation of sperm proteins. As the acquisition of functional competence including gaining motility during epididymal transit occurs in the complete absence of contemporaneous gene transcription and translation on the part of the spermatozoa, it is widely accepted that post-translational modifications are the only means by which spermatozoa can acquire functionality. Serine-threonine protein phosphatase 1 (PP1) together with their testis/sperm-specific interacting proteins might be involved in this regulatory mechanism. PP1alpha, PP1beta/delta, PP1gamma1 and PP1gamma2 are all expressed in the testis whereas PP1gamma2 is the only isoform expressed on spermatozoa. I2, I3, sds22, 14-3-3 and hsp90 are associated with PP1gamma2 in spermatozoa located on the sperm head and tail. Activity of PP1gamma2 and the binding pattern to these regulatory proteins changes in spermatozoa recruited from the caput and those from the cauda part of the epididymis. In this review, we summarize the possible roles of PP1 on spermatozoa during spermatogenesis and flagellar motility control. We suggest that PP1 might take part in the inhibition of the sperm motility activation by interacting with AKAPs and CAMKII. A hypothesized signaling pathway of mammalian sperm motility activation and PP1's function has been proposed.
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PMID:Role(s) of the serine/threonine protein phosphatase 1 on mammalian sperm motility. 1785 41

Loss of epithelial integrity often correlates with the progression of malignant tumors. Sds22, a regulatory subunit of protein phosphatase 1 (PP1), has recently been linked to regulation of epithelial polarity in Drosophila. However, its role in tumorigenesis remains obscure. In this study, using Drosophila imaginal tissue as an in vivo model system, we show that sds22 is a new potential tumor suppressor gene in Drosophila. Without sds22, cells lose epithelial architecture, and become invasive and tumorigenic when combined with Ras overexpression; conversely, sds22 overexpression can largely suppress tumorigenic growth of Ras(V12)scrib(-/-) mutant cells. Mechanistically, we show that sds22 prevents cell invasion and metastasis by inhibiting myosin II and Jun N-terminal kinase (JNK) activity downstream of PP1. Loss of this inhibition causes cells to lose epithelial organization and promotes cell invasion. Finally, human Sds22 is focally deleted and downregulated in multiple carcinomas, and this downregulation correlates with tumor progression, suggesting that sds22 inactivation may contribute to tumorigenesis and metastatic potential in human cancers via a similar mechanism.
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PMID:Sds22/PP1 links epithelial integrity and tumor suppression via regulation of myosin II and JNK signaling. 2139 59

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