Showing papers on "Calcineurin published in 1991"

Yeast has homologs (CNA1 and CNA2 gene products) of mammalian calcineurin, a calmodulin-regulated phosphoprotein phosphatase.

Abstract: Calcineurin, or phosphoprotein phosphatase type 2B (PP2B), is a calmodulin-regulated phosphoprotein phosphatase. We isolated a gene encoding a yeast PP2B homolog (CNA1) by screening a yeast genomic DNA library in the expression vector lambda gt11, first with 125I-labeled yeast calmodulin and then with a human cDNA encoding the catalytic (or A) subunit of calcineurin. The predicted CNA1 gene product is 54% identical to its mammalian counterpart. Using the polymerase chain reaction (PCR) with oligonucleotide primers based on sequences conserved between CNA1 and mammalian PP2B genes, we isolated a second gene, CNA2. CNA2 is identical to PP2Bw, a partial cDNA clone previously described by others as originating from rabbit brain tissue. Our findings demonstrate that a unicellular eukaryote contains phosphoprotein phosphatases of the 2B class. Haploid cells containing a single cna1 or cna2 null mutation, or both mutations, were viable. MATa cna1 cna2 double mutants were more sensitive than wild-type cells or either single mutant to growth arrest induced by the mating pheromone alpha factor and failed to resume growth during continuous exposure to alpha factor. Thus, calcineurin action antagonizes the mating-pheromone response pathway.

Specific identification and subcellular localization of three calmodulin-binding proteins in the rat gonadotrope: spectrin, caldesmon, and calcineurin.

Abstract: In an effort to characterize the second messenger system for LH release, we have previously identified five calmodulin-binding proteins in rat gonadotropes of Mr greater than 205,000, 200,000, 135,000, 60,000, and 52,000. In the present study, we have used a calmodulin overlayer assay combined with Western blotting to determine the molecular identity of three calmodulin-binding proteins in rat gonadotropes: the alpha subunit of spectrin (Mr greater than 205,000), caldesmon (Mr 84,000), and the alpha subunit of calcineurin (Mr 60,000). The Mr greater than 205,000 and Mr 60,000 components or rat pituitary which bind calmodulin are immunoreactive with spectrin and calcineurin antisera, respectively. Rat pituitary also contains an Mr 84,000 component, which is immunoreactive with polyclonal sera and monoclonal antibody raised to chicken gizzard caldesmon (Mr 150,000). Like caldesmon from other sources, the Mr 84,000 component remains soluble after heat treatment and preferentially binds either filamentous actin or calmodulin, depending on the Ca2+ concentration. The three calmodulin-binding proteins were localized specifically in gonadotropes using indirect immunofluorescence microscopy or by Western-blotting cell fractions enriched for gonadotropes. After differential centrifugation of pituitary homogenate, spectrin immunoreactivity was found associated with the nuclear and secretory granule fractions, whereas caldesmon immunoreactivity was seen in the cytosolic fraction and calcineurin in the cytosolic and nuclear fractions. Although the precise role for these proteins remains unknown, the apparent requirement for calmodulin and the small number of calmodulin-binding proteins in the gonadotrope suggest their involvement in mediating GnRH actions.

Calmodulin Antagonists Differentiate between Ni2+- and Mn2+-Stimulated Phosphatase Activity of Calcineurin

Abstract: The interaction of calmodulin antagonists with a phosphoprotein phosphatase, calcineurin, was investigated using para-nitrophenyl phosphate (pNPP) as a substrate. Calmidazolium, a potent calmodulin antagonist, inhibited the Ni(2+)-stimulated calmodulin-independent phosphatase activity to much the same extent as it did the Ca2+/calmodulin-stimulated activity. Other calmodulin antagonists, such as trifluoperazine, thioridazine, and W-7, also inhibited the Ni(2+)-stimulated phosphatase activity. On the other hand, calmidazolium only weakly and partially inhibited the Mn(2+)-stimulated phosphatase activity and the other calmodulin antagonists examined increased the Mn(2+)-stimulated activity, in the absence of calmodulin. With the addition of an equimolar amount, as to the inhibited holoenzyme, of the purified B subunit of calcineurin, the Ni(2+)-stimulated phosphatase activity recovered from 38 to 63% of the control level in the presence of 5 microM calmidazolium. When the amount of additional B subunit was increased, the phosphatase activity recovered to 94% of the control level, thereby implying that calmidazolium inhibits the Ni(2+)-stimulated phosphatase activity by interacting with the B subunit, in the absence of calmodulin. The Mn(2+)-stimulated phosphatase activity also recovered from the inhibition by calmidazolium, but a much larger amount of the B subunit was necessary for the recovery. These results indicate that the Ni(2+)- and Mn(2+)-stimulated activities of calcineurin are differentially affected by calmodulin antagonists and that the B subunit plays a crucial role in the expression of the Ni(2+)-stimulated phosphatase activity.

Detection of immunosuppressants

Abstract: A method of evaluating the immunosuppressive activity of a compound including contacting the compound with calcineurin and determining the ability of the compound to bind to the calcineurin. The ability to bind to the calcineurin is positively correlated to the immunosuppressive activity of the compound.

Identification of two calcineurin alpha isoforms in bovine brain by two different monoclonal antibodies.

Abstract: Calcineurin (calcium- and calmodulin-stimulated phosphatase) alpha subunit purified from bovine brain was found to be composed of two polypeptides, 61 KDa (alpha 1) and 59 KDa (alpha 2). The two peptides were separated and extracted from polyacrylamide gel. The immuno-peptide mapping of the purified peptides by partial proteolysis showed that the 59-KDa polypeptide was not a degradative product of the 61-KDa polypeptide. The interaction of the enzyme with two monoclonal antibodies, Vj6 and Vd3, raised against bovine brain calcineurin revealed that the 61-KDa polypeptide was recognized by both Vj6 and Vd3, whereas the 59-KDa one was recognized only by Vj6. These results indicate that there are at least two isoforms of calcineurin alpha subunits in bovine brain.