Positive effect of protein kinase A on the transcriptional activity of the nuclear factor of activated T-cell family proteins occurs via several different signal transduction mechanisms

Inaskina, I.; Serfling, E.; Jankevics, E.

Positive effect of protein kinase A on the transcriptional activity of the nuclear factor of activated T-cell family proteins occurs via several different signal transduction mechanisms

2007

Inaskina, I. | Serfling, E. | Jankevics, E.

The transcriptional activation of members of the nuclear factor of activated T-cell (NFAT) family is generally regulated by dynamic interplay between calcineurin and Ras/Raf/Erk protein kinase cascade, on the one hand, and active Ser/Thr protein kinases counteracting activity of calcineurin, on the other. Activation of calcineurin mediates the nuclear translocation of NFAT factors, but activation of classical Ras/Raf/Erk and further protein kinase cascades controls the transcriptional activation of NFATs and the induction of APE-1. Several Ser/Thr protein kinases have been described to phophorylate NFAT proteins, thereby counteracting the activity of calcineurin, among them glycogen syntase kinase-3 (GSK-3), casein kinases Ialpha (CKIalpha) and II (CKII), Erk, PKC and protein kinase A (PKA) as well as MAP/SAP kinases Erk1, JNK3 and p38alpha. We investigated the effect of GSK-3 and PKA on the transcriptional activity of NFAT family proteins-NFATc1/A, NFATc1/C, NFATc2, and NFATc3 using full-length expression vectors, NFATc1/Gal4 chimeras and different reporters. Our results demonstrate that overexpression of GSK-3 dramatically inhibited transcriptional activity of all coexpressed proteins, while overexpression of PKA significantly increased the level of NFATc-mediated reporter gene production. We suggest that positive effect of PKA is a sum of several distinct effects caused by different mechanisms. The functional assay using NFATc1/Gal4 chimera with serine 269 mutated to alanine reveals that direct effect of PKA on the transcription activity of NFATc1 is accomplishing through phosphorylation of Ser**269 and it is negative.

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AGROVOC Keywords

adn alemania allemagne cell culture culture de cellule dna germany glicogeno glycogen latvia letonia lettonie linfocitos lymphocyte lymphocytes nucleasas nuclease nucleases phosphorylation plasmide plasmidios plasmids protein kinase proteine proteins recherche research transcription

Bibliographic information

Published in

Proceedings of the Latvian Academy of Sciences. Section B: Natural, Exact, and Applied Sciences (Latvia)

Volume 61 Issue 1/2 ISSN 1407-009X

Pagination

pp. 20-25

Other Subjects

Proteina quinasa; Proteine kinase; Cultivo de celulas; Transcripcion; Glycogene; Fosforilacion; Proteinas; Investigacion

Language

English

Note

Summaries (En, Lv)

4 ill., 20 ref.

Translated Title

Proteina kinazes A pozitiva ietekme uz aktivetu T sunu kodolu faktoru transkripcijas aktivitati notiek, darbojoties dazadiem signalu parneses mehanismiem

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Summary

In AGRIS since: 2007-05-15

Format: AGRIS AP

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Positive effect of protein kinase A on the transcriptional activity of the nuclear factor of activated T-cell family proteins occurs via several different signal transduction mechanisms

2007

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