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Query: EC:2.7.11.26 (
GSK
)
6,788
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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 microM versus 670 microM) 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 src 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.
...
PMID:Selective effect of poly(lysine) on the enhancement of the lyn tyrosine protein kinase activity. Increased specificity toward src peptides. 137 54
Solid-phase ELISAs for the determination of EGF receptor (EGF-R) and pp60c-src
tyrosine protein kinase
activity are described. The methods were developed and optimized using purified recombinant EGF-R intracellular domain (ICD) and pp60c-src tyrosine protein kinases. A standardized assay that utilizes poly (GluNa-Tyr)4:1 as substrate and a monoclonal antiphosphotyrosine antibody for detection is described. Assay conditions for both enzymes were optimized with respect to substrate and ELISA plate-coating condition, divalent metal ion preferences, enzyme concentration, apparent kinetic constants for ATP, and reaction linearity. Following standardization, a number of reference
tyrosine protein kinase
inhibitors were tested in the ELISAs and compared to results obtained using solution-phase radioactive
tyrosine protein kinase
assays, which are based on the transfer of 32P from [gamma-32P]ATP to synthetic substrate. To enable a comprehensive comparison, IC50 values obtained in the ELISA were compared with values obtained in radioactive assays using both the holo-EGF-R and EGF-R ICD kinases. No substantial qualitative differences between these assays were seen. For many routine
tyrosine protein kinase
assays, semiquantitative or qualitative measurement of
TPK
activity is adequate. For such purposes, the ELISAs would be an attractive alternative to radioactive assays.
...
PMID:Development of solid-phase enzyme-linked immunosorbent assays for the determination of epidermal growth factor receptor and pp60c-src tyrosine protein kinase activity. 138 73
TPK
-IIB, a spleen
tyrosine protein kinase
devoid of autophosphorylation activity (Brunati, A. M., and Pinna, L. A. (1988) Eur. J. Biochem. 172, 451-457), has been purified to near homogeneity and assayed for its ability to phosphorylate the synthetic peptides EDNEYTA and EPQYQPA reproducing the two conserved phosphoacceptor sites of pp60c-src (Tyr-416 and Tyr-527). While EPQYQPA was phosphorylated with low efficiency (Km = 16.7 mM, Kcat = 14.4), EDNEYTA is an excellent substrate displaying a Km value of 58 microM and a Kcat value of 31.2. The single substitution, in the latter peptide, of the glutamic acid adjacent to the tyrosine by alanine to give EDNAYTA caused a 6-fold increase in the Km. The positive influence on the phosphorylation of the acidic residues at -3 and -4 relative to the tyrosine is indicated by comparison of the kinetic constants for peptides EDAAYAA (Kcat = 4.6, Km 0.325 mM) and QNAAYAA (Kcat 2.4, Km 1.7 mM). Furthermore, when residues in the peptide NEYTA were replaced by alanine, the phosphorylation of the peptides NAYTA and AAYAA, was almost negligible (in terms of Kcat/Km ratio). However, AEYTA, NEYAA and AEYAA were still phosphorylated, albeit less efficiently than NEYTA. The probability that these peptides will adopt a beta-turn is EDNAYTA = EDNEYTA, NAYTA greater than NEYTA, and no predicted beta-turn for AEYTA, NEYAA, and AEYAA. Therefore these results support the concept that an amino-terminal acidic residue(s) is strictly required by
TPK
-IIB, irrespective of peptide conformation, although a beta-turn may enhance the phosphorylation of those peptides that satisfy this requirement. Two other spleen tyrosine kinases,
TPK
-I/lyn and
TPK
-III, both related to the src family, also have a far greater preference for the peptide EDNEYTA over EPQYQPA. However, they can be distinguished from
TPK
-IIB by their lower affinity for the peptides EDNEYTA and NEYTA and by their different specificity towards the substituted derivatives of NEYTA.
TPK
-I/lyn, accepts most of the substitutions that are detrimental to
TPK
-IIB, the triply substituted peptide AAYAA being actually preferred over the parent peptide NEYTA. The substitution of glutamic acid by alanine is also tolerated by
TPK
-III, although, in contrast to
TPK
-IIB, the phosphorylation efficiency is drastically decreased by the substitution of the asparagine at position -2.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Peptides reproducing the phosphoacceptor sites of pp60c-src as substrates for TPK-IIB, a splenic tyrosine kinase devoid of autophosphorylation activity. 171 42
The peptide SAEEEDQYN, corresponding to the carboxyl-terminal tryptic fragment of rat progastrin, whose penultimate tyrosyl residue is sulphated in the native peptide, is phosphorylated with Km values of 120 and 180 microM by two spleen tyrosine protein kinases, termed
TPK
-IIB and
TPK
-III, respectively. Another spleen
tyrosine protein kinase
related to the src family (
TPK
-I/lyn) is poorly active toward this peptide, displaying a Km 6.5 mM. The Tyr-phosphorylated peptide is recognized by an antibody (L304), which reacts with both sulphated and unmodified peptides, while it is not recognized by a second antibody (L303), which reacts with unmodified peptide yet not with the sulphated derivative. These data, in conjunction with previous observations (Hofsteenge, J., Stone, S.R., Donella-Deana, A. and Pinna, L.A. (1990) Eur. J. Biochem. 188, 55-59) support the view that phosphotyrosine is an effective surrogate for sulphotyrosine in a wide spectrum of biological activities.
...
PMID:Substitution of phosphotyrosine for sulphotyrosine in biologically active peptides. Enzymatic phosphorylation of a progastrin peptide confers immunoreactivity reminiscent of the sulphated derivative. 171 35
The previously isolated spleen
tyrosine protein kinase
, conventionally termed
TPK
-IIA, displaying activation by either positively or negatively charged polyelectrolytes has been further characterized.
TPK
-IIA is immunologically related with the
tyrosine protein kinase
encoded by the lyn gene, a member of src subfamily and is dramatically activated by very high NaCl concentration. The stimulatory effects of NaCl and polylysine, which are not additive, are accounted for by increased Vmax values, the Km being virtually unchanged, suggesting that both effectors probably interact with the same site(s). Stimulation of
TPK
-IIA by heparin appears to be partially additive to that promoted by NaCl and possibly occurring through a different mechanism. The NaCl activatory effect correlates with the electrolytic nature of synthetic peptides used as substrates, being much more consistent with neutral peptides as compared with acidic ones. Of the other three spleen tyrosine protein kinases,
TPK
-I shows similar biochemical and immunological features, suggestive of close relatedness with
TPK
-IIA, while
TPK
-IIB and
TPK
-III are neither related with the lyn protein nor with the products of three other oncogenes of the src subfamily, namely lck, hck and fyn.
...
PMID:Stimulation by NaCl, polylysine and heparin of two forms of spleen tyrosine protein kinase immunologically related with the protein expressed by lyn oncogene. 199 63
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,
TPK
-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 the 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 microM) but 14-fold-different Vmax values with YEEEEE vs. EEEEEY indicate that an N-terminal 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.
...
PMID:Different specificities of spleen tyrosine protein kinases for synthetic peptide substrates. 226 99
T lymphocytes express a
tyrosine protein kinase
(
TPK
; protein-tyrosine kinase; ATP:protein-tyrosine O-phosphotransferase, EC 2.7.1.112), pp56lck that is encoded by the lck protooncogene. This
TPK
was recently found to be associated with the intracellular domain of the T-cell surface glycoproteins, CD4 and CD8, suggesting that it plays an important role in T-cell development and activation. We have studied the regulation of pp56lck and found that this kinase can be rapidly activated by an endogenous mechanism present in T-lymphocyte membranes. This activation was sensitive to sodium orthovanadate and O-phosphotyrosine, consistent with the involvement of a phosphotyrosine phosphatase (PTPase; protein-tyrosine-phosphatase; protein-tyrosine-phosphate phosphohydrolase, EC 3.1.3.48) in pp56lck activation. Based on a recent report demonstrating that CD45, the leukocyte common antigen, is a membrane-bound PTPase, we analyzed its role in pp56lck activation. CD45 was found to be the major (greater than 90%) PTPase in membranes of the murine T-lymphoma line BW5147. Moreover, activation of pp56lck was undetectable in a mutant BW5147 line lacking CD45 expression (and the associated PTPase activity). In contrast, activation of pp56lck was readily detected in the wild-type lymphoma line. More important, when immunoprecipitated CD45 was added to pp56lck, the
TPK
activity of the latter increased greater than 2-fold within minutes. This effect of CD45 was completely blocked by sodium orthovanadate. These findings indicate an important role for the CD45 PTPase in pp56lck activation. This role could be mediated by direct dephosphorylation of a regulatory tyrosine residue in pp56lck.
...
PMID:Rapid activation of the T-cell tyrosine protein kinase pp56lck by the CD45 phosphotyrosine phosphatase. 254 4
High levels of
tyrosine protein kinase
have been recently detected in the membranes of rat spleen. In the present report the
tyrosine protein kinase
activity of the 30,000 x g pellet of rat spleen has been solubilized and partially purified by ion exchange and gel permeation chromatography. Two peaks of
tyrosine protein kinase
of Mr 35,000 (TPK-I) and Mr 40,000 (TPK-II) have been resolved. These kinases were free of the EGF receptor and insulin receptor tyrosine protein kinases. Although
TPK
-I and
TPK
-II phosphorylated angiotensin II, casein, histone, tubulin, phosphorylase b, and p36 they differed from each other in preference for the substrates. Both tyrosine protein kinases did not phosphorylate anti-pp60v-src IgG.
...
PMID:Identification and characterization of the tyrosine protein kinases of rat spleen. 309 28
Ten distinct protein kinases have been tested for their ability to phosphorylate calmodulin. Only casein kinase-2 and a spleen
tyrosine protein kinase
(TPK-III) proved effective, their phosphorylation efficiency being dramatically enhanced by histones and other polybasic peptides while being depressed by 50 microM Ca2+. Phosphorylation by CK-2 takes place with a Km of 12 microM calmodulin, leading to the incorporation of more than 1.5 mol P/mol substrate. Ser81 and Thr79 are among the residues affected. On the other hand, the two tyrosyl residues of calmodulin are both phosphorylated by
TPK
-III, Tyr99 being preferred over Tyr138.
...
PMID:Polycation-dependent, Ca2+-antagonized phosphorylation of calmodulin by casein kinase-2 and a spleen tyrosine protein kinase. 347 6
Human lymphocyte tyrosine protein kinases (TPKs) have been analyzed by gel-filtration chromatography. The major
TPK
species with activity towards an exogenous tyrosine-containing peptide had molecular masses of 70-100 kDa (
TPK I
) and 35-40 kDa (
TPK II
). TPKs I and II were distinct from the well-characterized autophosphorylating lymphoid cell
TPK
, pp56lck [(1983) J. Biol. Chem. 258, 10738-10742]. Both
TPK I
and
TPK II
were down-regulated following mitogenic stimulation of lymphocytes with phytohaemagglutinin. By contrast, pp56lck remained clearly detectable in stimulated lymphocytes. We suggest that TPKs I and II may play a role in the regulation of the lymphocyte cell cycle.
...
PMID:Two major tyrosine protein kinases of resting human T lymphocytes are down-regulated following mitotic stimulation. 349 51
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