EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent work has identified a cascade of membrane bound protein kinases in Ehrlich ascites tumor cells. These enzymes, designated PKL, PKS and PKM, are present in both Ehrlich tumor and mouse brain, but the cascade is active only in the tumor tissue. We have now purified a fourth protein kinase, PKF, that is also associated with this cascade. Protein kinase F prosphorylates PKL and is phosphorylated by PKS. The position of this kinase in the cascade is as follows, where the arrows denote phosphorylation: [Formula: see text] The phosphorylation by PKF, like phosphorylation by the other kinases, is at a tyrosine residue and causes the substrate kinase (PKL) to become active. The role of the tyrosine phosphorylation in activating these kinases is described in detail elsewhere. One result of activation of the cascade is the phosphorylation of the beta subunit of the Na+K+-ATPase, which causes inefficient Na+ pumping and is at last in part responsible for the high aerobic glycolysis of Ehrlich ascites tumor cells. By several criteria protein kinase F from Ehrlich cells is homologous to the src gene product (pp60src) from avian sarcoma viruses. Antiserum raised against PKF and sera from rabbits bearing rous sarcoma virus (RSV)-induced tumors quantitatively precipitate the same 60 kd phosphoprotein from cell lysates of three different RSV-transformed cell lines. Both proteins phosphorylate PKL and a 130 kd cytoskeletal protein (vinculin). The tryptic maps of these proteins are closely similar. Both proteins bind specifically to PKL covalently coupled to Sepharose. We used this latter observation to facilitate the purification of pp60 src from RSV-transformed cells.
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PMID:A mouse homolog to the avian sarcoma virus src protein is a member of a protein kinase cascade. 616 90

Vinculin, a cytoskeletal protein localized at adhesion plaques, is a phosphoprotein containing phosphoserine, phosphothreonine, and phosphotyrosine. Vinculin has been previously shown to be a substrate for pp60src, a phosphotyrosine protein kinase, but the kinase(s) responsible for phosphorylation of the other amino acid residues is unknown. The present report examines the phosphorylation of vinculin by various serine- and threonine-specific protein kinases. Only protein kinase C, the calcium-activated phospholipid-dependent protein kinase, phosphorylates vinculin at a significant rate (24 nmol/min/mg) and displays marked specificity for vinculin. Both calcium and phosphatidylserine were required for vinculin phosphorylation by protein kinase C. In addition, both phorbol 12,13-dibutyrate (10 nM) and phorbol 12-myristate 13-acetate (10 nM) stimulated vinculin phosphorylation by protein kinase C at a limiting calcium concentration (10(-6) M). Tryptic peptide analysis revealed two major sites of phosphorylation. One site contained phosphoserine and the other contained phosphothreonine. When compared with tryptic maps of vinculin phosphorylated by src kinase, no overlapping phosphorylated peptides were found. The present findings coupled with the plasma membrane location of both these proteins suggest that vinculin may be a physiologic substrate for protein kinase C.
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PMID:Vinculin, a cytoskeletal substrate of protein kinase C. 622 75

The rates of phosphorylation and dephosphorylation of the erythrocyte cytoskeletal protein, spectrin, were analyzed in young and old rat erythrocytes. Endogenous membrane protein kinase activity was measured in age-separated rat erythrocytes, and was found to decrease as a function of cell age. Membranes prepared from young and old erythrocytes contained comparable levels of protein phosphatase activity. Spectrin phosphatase activity was readily observed in erythrocyte membranes. Partially purified spectrin kinase and spectrin were prepared from membranes obtained from young and old erythrocytes, and the phosphorylation of the spectrin fractions was measured with the isolated kinases. The kinases prepared from young or old cells phosphorylated spectrin from young cells to the same extent. When spectrin from old cells was used as the substrate, it was phosphorylated ten-fold less extensively by the spectrin kinase prepared from old cells than by the spectrin kinase from young cells. This finding indicated that the decreased phosphorylation of spectrin observed in membranes prepared from age-separated red cells was due to a structural alteration in the spectrin. A structural basis for the decreased phosphorylation of spectrin in older erythrocytes was sought. Treatment of erythrocyte membranes with malonyldialdehyde, a product of lipid peroxidation which accumulates in erythrocyte membranes during senescence, adversely affected spectrin phosphorylation. The results presented here indicate that intramolecular derivatization of spectrin was sufficient to impair its function as a substrate for protein kinase.
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PMID:Spectrin phosphorylation in senescent rat erythrocytes. 631 4

The nucleotide sequence of the region of Gardner-Rasheed feline sarcoma virus (GR-FeSV) encoding its primary translation product, p70gag-fgr, has been determined. From the nucleotide sequence, the amino acid sequence of this transforming protein was deduced. Computer analysis indicates that a portion of P70gag-fgr has extensive amino acid sequence homology with actin, a eukaryotic cytoskeletal protein. A second region of P70gag-fgr is closely related to the tyrosine-specific kinase gene family. Thus, the v-fgr oncogene appears to have arisen as a result of recombinational events involving two distinct cellular genes, one coding for a structural protein and the other for a protein kinase.
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PMID:Gene product of v-fgr onc: hybrid protein containing a portion of actin and a tyrosine-specific protein kinase. 631 14

The unusually large (approximately 600 to > 3000 kDa) myosin-associated proteins of the titin/twitchin superfamily are considered to be important cytoskeletal rulers for thick filament assembly in muscle. This function is maintained by approximately 60-240 modular fibronectin-type-III and immunoglobulin-C2 repeats in these proteins which further contain a protein serine/threonine kinase domain of unknown function. In this study, the bacterially expressed kinase domain of Aplysia twitchin was used in order to identify a potential physiological substrate. Addition of the recombinant kinase to Aplysia actomyosin preparations resulted in the specific phosphorylation of the 19-kDa myosin regulatory light chains. The twitchin kinase phosphorylated purified light chains on Thr15 in a region which shared a high degree of similarity with the phosphorylation site for vertebrate smooth muscle myosin light chain kinase. Peptide analogs of the twitchin substrate sequence and the similar sequence in vertebrate smooth muscle myosin light chains were phosphorylated with good kinetic properties. These data reveal the first potential substrate for any of the giant protein kinases and support a dual role of twitchin in molluscan muscle as a cytoskeletal protein as well as a myosin light chain kinase.
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PMID:Phosphorylation of myosin regulatory light chains by the molluscan twitchin kinase. 758 84

The present study examined the immunoexpression of the neuronal cytoskeletal proteins, MAP-2 and beta-tubulin within a timed series of rat fetal neocortical transplants. beta-tubulin is a major component of microtubules and MAP-2 regulates the assembly and stability of neuronal microtubules and is a major site for the phosphorylation cAMP dependent protein kinase in neurons. Both proteins are strongly expressed in the soma and dendrites of normal neurons. MAP-2 has been shown to be a sensitive marker for ischemia in neurons and is downregulated in this form of injury. Immunoexpression of both MAP-2 and beta-tubulin in grafted cortical neurons was markedly reduced when compared to age-matched or even perinatal specimens at all post-operative times. Dendritic staining was confined to random, thin processes with no laminar patterns and staining within somata was very weak. In some specimens, somatic expression was increased and dendrites were more robustly stained when a portion of the graft was juxtaposed to a fiber tract even though in other regions of the same graft there was very weak immunostaining. The present results corroborate previous studies of cortical transplants indicating an immature structure and metabolism, and it is suggested here that the primary factor is a sublethal form of ischemic injury. Another possibility for the relative paucity of cytoskeletal protein expression could be that transplanted neurons undergo a new developmental scheme (neodevelopment) that is brought about by truncated migration patterns and abnormal synaptic connections.
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PMID:Diminished expression of microtubule-associated protein (MAP-2) and beta-tubulin as a putative marker for ischemic injury in neocortical transplants. 772 37

Abnormal hyperphosphorylation of the cytoskeletal protein TAU is seen in the characteristic paired helical filaments [neurofibrillary tangles] of Alzheimer's disease [AD]. A recently described protein kinase, PK40erk, (1) a member of the ERK family of kinases, can produce in vitro many of the properties of Alzheimer-like hyperphosphorylated TAU. cAMP-dependent protein kinase A [PKA] phosphorylates TAU to a lesser extent; however, the product is not like the hyperphosphorylated TAU of AD in several important respects. We now report that in vitro PK40erk, a candidate for the enzyme responsible for TAU hyperphosphorylation in AD, will further phosphorylate TAU that was previously saturated by protein kinase A, provided that the concentrations of free uncomplexed ATP are low. Interestingly, the actions of different kinases on TAU are not independent, but may depend on the order in which they work on TAU; i.e., prior phosphorylation by PKA partially inhibits the action of PK40erk.
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PMID:Hyperphosphorylation of human TAU by brain kinase PK40erk beyond phosphorylation by cAMP-dependent PKA: relation to Alzheimer's disease. 816 86

Casein kinase II activities were purified from human erythrocyte membrane and cytosolic fractions to apparent homogeneity. The kinases isolated from the membrane and cytosolic fractions exhibited the same subunit composition and the ability to utilize ATP and GTP as phosphoryl donors. Antibodies against the alpha and alpha' subunits of human casein kinase II cross reacted with the corresponding subunits of both erythrocyte casein kinases. Spermine, spermidine, putrescine, and polylysine stimulated to varying degrees the activities of erythrocyte casein kinase II, whereas heparin inhibited the kinase activities. Both kinases were found to catalyze the phosphorylation of several erythrocyte membrane cytoskeletal proteins, including spectrin, ankyrin, adducin, protein 4.1, and protein 4.9. Unlike casein kinase I, casein kinase II did not phosphorylate band 3 appreciably. A preliminary estimate indicates that both human erythrocyte membrane and cytosolic casein kinase II catalyze the incorporation of approximately 1.2 and 3.5 moles of phosphate into each mole of spectrin and ankyrin, respectively. An analysis of the phosphopeptide maps of ankyrin indicates that both membrane and cytosolic kinases phosphorylate the same domains within ankyrin. These data, taken together, suggest that the type II casein kinases isolated from human erythrocyte membrane and cytosol are either identical or closely related and may play a role in the regulation of cytoskeletal protein interactions.
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PMID:Human erythrocyte casein kinase II: characterization and phosphorylation of membrane cytoskeletal proteins. 823 58

Terminal differentiation of chick lens fiber cells has been previously characterized by the accumulation, acidification via phosphorylation, and increased membrane association of a 49-kDa cytoskeletal protein. In these studies, we examine: (1) the subcellular distribution of the 49-kDa protein with regard to ageing and isoform composition; and (2) potential mechanisms regulating 49-kDa phosphorylation and insolubilization. With conventional Western blotting techniques, the 49-kDa protein is found exclusively in insoluble form within terminally differentiated nuclear fiber cells. Cortical fibers, on the other hand, exhibit a more widespread subcellular distribution of the 49-kDa protein. On two-dimensional gels, cortical 49-kDa isoelectric variants segregate according to their ease of sedimentation. After homogenization in detergent-containing buffers, the major isoform of the 49-kDa protein found in low speed pellets (40,000 g, 20 min) exhibits an acidic pI. The 40,000 g supernate and the high speed pellet (100,000 g, 2 hr) which is sedimented from this supernate are enriched in more basic isoforms of the 49-kDa protein. The 100,000 g supernate overlying the high speed pellet is dominated by the most basic isoform. With in vitro phosphorylation assays, the 49 kDa protein is shown to be a major substrate affected by endogenous cAMP-dependent mechanisms. Both the low and high speed pellets exhibit endogenous cAMP-dependent kinase activity. An inhibitor of cAMP-dependent protein kinase activity is also found in soluble lens fractions. Conversion of the 49-kDa protein into more acidic, phosphorylated isoforms increases its insolubility and ease of sedimentation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclic AMP-mediated phosphorylation and insolubilization of a 49-kDa cytoskeletal marker protein of lens fiber terminal differentiation. 838 3

Dynamic regulation of ion channel interactions with the cytoskeleton mediates aspects of synaptic plasticity, yet mechanisms for this process are largely unknown. Here, we report that two inwardly rectifying K+ channels, Kir 2.1 and 2.3, bind to PSD-95, a cytoskeletal protein of postsynaptic densities that clusters NMDA receptors and voltage-dependent K+ channels. Kir 2.3 colocalizes with PSD-95 in neuronal populations in forebrain, and a PSD-95/Kir 2.3 complex occurs in hippocampus. Within the C-terminal tail of Kir 2.3, a serine residue critical for interaction with PSD-95, is also a substrate for phosphorylation by protein kinase A (PKA). Stimulation of PKA in intact cells causes rapid dissociation of the channel from PSD-95. This work identifies a physiological mechanism for regulating ion channel interactions with the postsynaptic density.
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PMID:Binding of the inward rectifier K+ channel Kir 2.3 to PSD-95 is regulated by protein kinase A phosphorylation. 889 15

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