Your search keyword '"Marin, Oriano"' showing total 11 results

1. A Noncanonical Sequence Phosphorylated by Casein Kinase 1 in β-Catenin May Play a Role in Casein Kinase 1 Targeting of Important Signaling Proteins

Author

Marin, Oriano, Bustos, Victor H., Cesaro, Luca, Meggio, Flavio, Pagano, Mario A., Antonelli, Marcelo, Allende, Catherine C., Pinna, Lorenzo A., and Allende, Jorge E.

Published

2003

2. The First Armadillo Repeat Is Involved in the Recognition and Regulation of β-Catenin Phosphorylation by Protein Kinase CK1

Author

Bustos, Victor H., Ferrarese, Anna, Venerando, Andrea, Marin, Oriano, Allende, Jorge E., and Pinna, Lorenzo A.

Published

2006

3. The importance of negative determinants as modulators of CK2 targeting. The lesson of Akt2 S131.

Author

Vilardell, Jordi, Girardi, Cristina, Marin, Oriano, Cozza, Giorgio, Pinna, Lorenzo A., and Ruzzene, Maria

Subjects

PROTEIN kinases, PEPTIDOMIMETICS, PHOSPHORYLATION, GENE transfection, PHYLOGENY

Abstract

CK2 is a pleiotropic S/T protein kinase (formerly known as asein inase 2) which is attracting increasing interest as therapeutic target, and the identification of its substrates is a crucial step in determining its involvement in different pathological conditions. We recently found that S131 of Akt2 (homologous to the well established CK2 target S129 of Akt1) is not phosphorylated by CK2 either in vitro or in vivo, although the consensus sequence recognized by CK2 (S/T-x-x-E/D/pS/pT) is conserved in it. Here, by exploiting synthetic peptides, in cell transfection experiments, and computational analysis, we show that a single sequence element, a T at position n+1, hampers phosphorylation, causing an α-helix structure organization which prevents the recognition of its own consensus by CK2. Our results highlight the role of negative determinants as crucial modulators of CK2 targeting and corroborate the concept that Akt1 and Akt2 display isoform specific features. Experiments with synthetic peptides suggest that Akt2 S131 could be phosphorylated by kinases of the Plk (Polo-like kinase) family, which are insensitive to the presence of the n+1 T. The low phylogenetic conservation of the Akt2 sequence around S131, as opposed to the extremely well-conserved Akt1 homologous sequence, would indicate a dominant positive role in the selective pressure only for the Akt1 phosphoacceptor site committed to undergo phosphorylation by CK2. By contrast, Akt2 S131 may mediate the response to specific physio/pathological conditions, being consequently shielded against basal CK2 targeting. [ABSTRACT FROM AUTHOR]

Published

2018

4. Chemical Dissection of the APC Repeat 3 Multistep Phosphorylation by the Concerted Action of Protein Kinases CK1 and GSK3.

Author

Ferrarese, Anna, Marin, Oriano, Bustu, Victor H., Venerando, Andrea, Antonelli, Marcelo, Allende, Jorge E., and Pinna, Lorenzo A.

Subjects

*CHEMICAL reactions, *PHOSPHORYLATION, *PROTEIN kinases, *PROTEINS, *AMINO acids

Abstract

A crucial event in machinery controlled by Wnt signaling is the association of β-catenin with the adenomatous polyposis coli (APC) protein, which is essential for the degradation of β-catenin and requires the multiple phosphorylation of APC at six serines (1501, 1503, 1504, 1505, 1507, and 1510) within its repeat three (R3) region. Such a phosphorylation is believed to occur by the concerted action of two protein kinases, CK1 and GSK3, but its mechanistic aspects are a matter of conjecture. Here, by combining the usage of variably phosphorylated peptides reproducing the APC R3 region and Edman degradation assisted localization of residues phosphorylated by individual kinases, we show that the process is initiated by CK1, able to phosphorylate S1510 and S1505, both specified by non-canonical determinants. Phosphorylation of S1505 primes subsequent phosphorylation of S1501 by GSK3. En turn, phospho- Si 501 triggers the hierarchical phosphorylation of S 1504 and Si 507 by CKI. Once phosphorylated, S 1507 primes the phosphorylation of both S1510 and S1503 by CK1 and GSK3, respectively, thus completing all six phosphorylation steps. Our data also rule out the intervention of CK2 despite the presence of a potential CK2 phosphoacceptor site, S1510LDE, in the R3 repeat. S1510 is entirely unaffected by CK2, while it is readily phosphorylated even in the unprimed peptide by CK1δ but not by CK1γ. This discloses a novel motif significantly different from non-canonical sequences phosphorylated by CK1 in other proteins, which appears to be specifically recognized by the 6 isoform of CK1. [ABSTRACT FROM AUTHOR]

Published

2007

5. Structural Features Underlying the Multisite Phosphorylation of the A Domain of the NF-AT4....

Author

Marin, Oriano, Burzio, Veronica, Boschetti, Marco, Meggio, Flavio, Allende, Catherine C., Allende, Jorge E., and Pinna, Lorenzo A.

Subjects

*TRANSCRIPTION factors, *T cells, *PROTEIN kinases, *AMINO acids, *BIOCHEMICAL mechanism of action, *STRUCTURE-activity relationships, *PHYSIOLOGY

Abstract

Focuses on the role of phosphorylation and dephosphorylation of NF-AT family of transcription factors in activation of T lymphocyte and control of immune response. Modification of NF-AT region by protein kinase; Importance of acidic cluster of amino acid for high-efficiency phosphorylation; Isolation of partially purified rat liver cytosol.

Published

2002

6. Phosphorylation of synthetic fragments of inhibitor-2 of protein phosphatase-1 by casein kinase-1 and -2.

Author

Marin, Oriano, Meggio, Flavio, Sarno, Stefania, Andretta, Monica, and Pinna, Lorenzo A.

Subjects

*PHOSPHATASES, *PHOSPHORYLATION, *PROTEINS, *CASEINS, *GLYCOGEN, *AMINO acids

Abstract

The major phosphorylation site for both casein kinase-2 (CK2) and casein kinase-1 (CK1) in protein phosphatase-1 (PP-1) inhibitor-2 (I-2) is Set86. Minor phosphorylation sites affected by either CK2 or CKI are Ser120/Ser121 and Ser174, respectively. A synthetic peptide of 25 amino acids encompassing residues 67-93 of I-2 is phosphorylated by either CK2 or CK1 at its seryl residue corresponding to Set86 with higher Vmax and Km values similar to those of the intact protein (9 vs 7.2 μM and 14.2 vs 5.3 gM with CK2 and CK1, respectively). No detectable phosphorylation of this peptide which also includes the glycogen synthase kinase-3 (GSK-3) site (Thr72), could be observed with either GSK-3 or p34cdc2 kinase whether or not its seryl residue equivalent to Ser86 had been previously phosphorylated by CK2. Shorter derivatives of I-2(67-93), encompassing residues 72-93 and 78-93, are also readily phosphorylated by both CK1 and CK2, with phosphorylation efficiencies similar to those of the parent peptide. A synthetic heptadecapeptide reproducing the phosphoacceptor site around Ser120/Ser121 is phosphorylated by CK2, but not to any detectable extent by CK1, with a Km value fivefold higher than thai of the corresponding pentadecapeptide including Set86 (78-93). A synthetic pentadecapeptide (166-180) reproducing the phosphoacceptor site around Ser174 is phosphorylated by CK1 less efficiently than the pentadecapeptide including its main phosphorylation site (78-93) (Km 280 μM vs 33 μM). This peptide is readily phosphorylated by CK2 as well, although it lacks the canonical consensus sequence for CK2 and its Ser174 is almost unaffected by CK2 in intact I-2. These data provide the clear-cut demonstration that the consensus sequence with N-terminal prephosphorylated residue(s). SerP/ThrP-Xaa-Xaa-Ser/Thr, [Flotow. H., Graves, P. R., Wang. A., Fiol, C. J., Roeske, R. W. & Roach, P. J. (1990) J. Biol. Chem. 265, 14264-14269; Meggio, F., Perich. J. W., Reynolds. E. C. & Pinna. L. A. (1991) FEBS Lett. 283, 303-306] is not always required to achieve efficient and high-affinity phosphorylation by CK1. They also show that the specificity determinants for I-2 phosphorylation by either CK2 or CK1, but not by GSK3, are entirely grounded on local structural features of the phosphoacceptor site, being only marginally affected by the overall structure of I-2. [ABSTRACT FROM AUTHOR]

Published

1994

7. Selective effect of poly(lysine) on the enhancement of the <em>lyn</em> tyrosine protein kinase activity.

Author

Donella-Deana, Arianna, Marin, Oriano, Brunati, Anna Maria, and Pinna, Lorenzo A.

Subjects

*LYSINE, *AMINO acids, *PROTEIN-tyrosine kinases, *PROTEIN kinases, *SPLEEN, *RATS, *ENZYMES

Abstract

A tyrosine protein kinase (TPK-I), isolated from rat spleen [Brunati, A. M. & Pinna, L. A. (1988) Eur. J. Biochem. 172, 451-457] and recently identified as the product of the lyn oncogene [Brunati, A. M., Donella-Deana, A., Ralph, S., Marchiori, F., Borin, G., Fischer, S. & Pinna, L. A. (1991) Biochim. Biophys. Acta 1901, 123-126], is stimulated by a variety of effectors, including poly(lysine), heparin and very high NaCl concentrations. The efficacy of these compounds is variably dependent on the nature of the phosphoacceptor peptide substrates. Here we show that poly(lysine), but neither NaCl nor heparin, specifically enhances the phosphorylation efficiency of lyn TPK for the peptide EDNEYTA (src peptide). It reproduces the main autophosphorylation site of pp60c-src (Tyr416), which is entirely conserved in lyn TPK. The favourable effect of poly(lysine) is accounted for by both a dramatic drop of the Km value (70 µM versus 670 µM) and more than a threefold increase in Vmax. The effect is not so evident with a variety of different peptides, either unrelated to the src peptide (e. g. angiotensin II, AAYAA) or derived from the src peptide by single or multiple substitutions of the residues located on the N-terminal side of tyrosine. In particular, the responsiveness to poly(lysine) is dramatically reduced whenever alanine is replaced for either asparagine at position -2 or glutamic acid at position -1, either in the src heptapeptide or in its shorter derivative, the pentapeptide NEYTA. In sharp contrast, the favourable effect of 2 M NaCl, which is invariably accounted for only by an increased Vmax, is especially evident with peptides like angiotensin II and AAYAA, whose phosphorylation is less sensitive to poly(lysine) stimulation. The phosphorylation of the sro peptides are actually inhibited rather than stimulated by 2 M NaCl. Consistent with this, lyn TPK autophosphorylation is also dramatically stimulated by poly(lysine) while being inhibited by 2 M NaCl. These data show that poly(lysine) deeply alters the selectivity of lyn TPK by conferring to it an enhanced activity and an especially high affinity toward peptides that reproduce the conserved autophosphorylation site of the TPK of the src family. It is suggested that endogenous compound, whose effect is mimicked by poly(lysine) in vitro, may play a relevant role in determining the specificity of lyn TPK in vivo and possibly of other TPK of the src family. [ABSTRACT FROM AUTHOR]

Published

1992

8. Site specificity of casein kinase-2 (TS) from rat liver cytosol.

Author

Marin, Oriano, Meggio, Flavio, Marchiori, Fernando, Borin, Gianfranco, and Pinna, Lorenzo A.

Subjects

*PROTEIN kinase CK2, *PHOSPHORYLATION, *AMINO acids, *PEPTIDASE, *PROTEIN binding, *LABORATORY rats

Abstract

Explores the factors determining the site recognition and phosphorylation by rat liver casein kinase-2 (CK-2) with a set of 14 related hexapeptidases each including a single phosphorylatable amino acid and five acidic plus neutral residues. Features of the peptides; Testing of substrates and/or competitive inhibitors of CK-2 and their kinetic and inhibition constants; Affinity for the protein-binding site.

Published

1986

9. Isolation from spleen of a 57-kDa protein substrate of the tyrosine kinase Lyn.

Author

Donella-Deana, Arianna, James, Peter, Staudenmann, Werner, Cesaro, Luca, Marin, Oriano, Brunati, Anna Maria, Ruzzene, Maria, and Pinna, Lorenzo A.

Subjects

PROTEIN-tyrosine kinases, SPLEEN, AMINO acids, PHOSPHORYLATION, CYCLIC adenylic acid, ENZYMES

Abstract

A 57-kDa protein (p57) has been purified to homogeneity from a microsomal fraction of rat spleen. It is specifically and efficiently phosphorylated by the Src-like tyrosine kinase Lyn purified from the same source with a Km of 0.34 µM. The tyrosine kinases c-Fgr, Fyn, C-terminal Src kinase and p72syk, as well as the Ser/Thr-specific cAMP-dependent protein kinase and protein kinases CK1 and CK2 do not phosphorylate p57. C-terminal Src kinase, which acts to down-regulate the Src-like protein-tyrosine kinases, almost completely prevents the protein phosphorylation catalysed by Lyn. Protein mass fingerprinting with tryptic fragments identified p57 as a protein related to protein disulfide-isomerase which belongs to the superfamily of Cys-Gly-His-Cys-containing sequences. Lyn phosphorylates tyrosine residues Y444, Y453 and Y466 which are located in a highly acidic region of the protein at the C-terminus. Upon phosphorylation, p57 forms a complex with Lyn which can be immunoprecipitated with anti-Lyn IgG. The association which occurs between the phosphorylated substrate and the SH2 domain of the kinase is consistent with the suggested 'processive phosphorylation' model which implies that a primary phosphorylation site of the substrate binds to the SH2 domain of the enzyme and triggers the phosphorylation at secondary site(s). [ABSTRACT FROM AUTHOR]

Published

1996

10. Specificity of T-cell protein tyrosine phosphatase toward phosphorylated synthetic peptides.

Author

Ruzzene, Maria, Donella-Deana, Arianna, Marin, Oriano, Perich, John W., Ruzza, Paolo, Borin, Gianfranco, Calderan, Andrea, and Pinna, Lorenzo A.

Subjects

T cells, AMINO acids, TYROSINE, PROTEINS, PEPTIDES, CALMODULIN, PROTEIN-tyrosine kinases

Abstract

The local specificity determinants for a T-cell protein tyrosine phosphatase (TC-PTP) have been inspected with the aid of a series of synthetic peptides, either enzymically or chemically phosphorylated, derived from the phosphoacceptor sites of phosphotyrosyl proteins. The truncated form of T-cell PTP, deprived of its C-terminal down-regulatory domain, readily dephosphorylates submicromolar concentrations of eptapeptides to eicosapeptides, reproducing the C-terminal down-regulatory site of pp60c-src (Tyr527), the phosphorylated loop IV of calmodulin and the main autophosphorylation site of two protein tyrosine kinases of the src family (Tyr416 of pp60c-src and Tyr412 of p51fgr). However, phosphopeptides of similar size, derived from phosphoacceptor tyrosyl sites of the abl and epidermal-growth-factor receptor protein tyrosine kinases, the phosphorylated loop III of calmodulin, and phosphoangiotensin II undergo either very slow or undetectable dephosphorylation, even if tested up to I μM concentration. The replacement of either Ser-P or O-methylated phosphotyrosine for phosphotyrosine within suitable peptide substrates gives rise to totally inert derivatives. Moreover, amino acid substitutions around phosphotyrosine in the peptides src-(41 2-418), src-(414 -418) and abl-(390 -397) deeply influence the dephosphorylation efficiency. From these data and from a comparative analysis of efficient versus poor phosphopeptide substrates, it can be concluded that acidic residues located on the N-terminal side of phosphotyrosine, with special reference to position -3, play a crucial role in substrate recognition, while basic residues in the same positions act as negative determinants. In any event, the presence of at least two aminoacyl residues upstream of phosphotyrosine represents a necessary, albeit not sufficient, condition for detectable dephosphorylation to occur. By replacing the truncated form of TC-PTP with the full length TC-PTP, the dephosphorylation efficiencies of all peptides tested are dramatically impaired. Such an effect is invariably accounted for by a substantial increase in Km values, accompanied by a more or less pronounced decrease in Vmax values. These data support the concept that the C-terminal regulatory domain of TC-PTP exerts its function primarily by altering the affinity of the enzyme toward its phosphotyrosyl targets. [ABSTRACT FROM AUTHOR]

Published

1993

11. Different specificities of spleen tyrosine protein kinases for synthetic peptide substrates.

Author

Donella-Deana, Arianna, Brunati, Anna Maria, Marchiori, Fernando, Borin, Gianfranco, Marin, Oriano, and Pinna, Lorenzo A.

Subjects

SPLEEN, TYROSINE, PROTEIN kinases, PHOSPHOTRANSFERASES, AMINO acids, BIOCHEMISTRY

Abstract

20 synthetic peptides, each of which includes a tyrosyl residue flanked by either neutral or acidic amino acids in different proportions and at variable positions, have been employed as model substrates for investigation of the site specificity of three tyrosine protein kinases previously isolated from spleen [Brunati. A. M. & Pinna, L. A. (1988) Eur. J. Biochem. 172, 451 -457] and conventionally termed TPK-I, IPK-IIB and TPK-III. Comparison of the phosphorylation efficiencies shows that each tyrosine protein kinase is considerably different from the others in both the stringency and thc nature of its specificity determinants. By considering, in particular, the kinetic constants obtained with the pentapeptides AAYAA, EEYAA, AEYAA, EAYAA, with the tetrapeptides AYAA and EYAA and with the tripeptides AYA and EYA, it turns out that N-terminal acidic residue(s) are only essential with TPK-IIB for efficient phosphorylation with multiple residues displaying a synergistic effect. The very similar Km (130 µM) but 14-fold-different Vmax values with YEEEEE vs. EEEEEY indicate that an Nterminal rather than C-terminal location of acidic residues is required for a high phosphorylation rate with, though not for binding to TPK-IIB. Acidic residues decrease the phosphorylation rate with TPK-I, a kinase related to the src family which is immunologically indistinguishable from the lyn TPK; they are nearly ineffective, however, with TPK-III, the least specific of the tyrosine protein kinases, which exhibits appreciable activity toward tripeptides and dipeptides like GAY and AY which are not significantly affected by TPK-I and TPK-IIB. While the peptide substrate specificity of TPK-I is similar to that of TPK-IIA, a spleen tyrosine protein kinase previously considered [Brunati. A. M., Marchiori, F., Ruzza, P., Calderan, A., Borin, G. & Pinna, L. A. (1989) FEBS Lett. 254. 145- 149], the remarkable requirement of TPK-IIB alone for acidic peptides may suggest the involvement of this enzyme, which is also unique in its failure to autophosphorylate, in the phosphorylation of the highly conserved and quite acidic phosphoacceptor sites of the src family protein kinases. [ABSTRACT FROM AUTHOR]

Published

1990