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Query: EC:2.7.13.3 (
histidine kinase
)
2,405
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
nm23
genes were discovered on the basis of their reduced expression by highly metastatic cell lines. This trend was confirmed in cohorts of several types of human carcinomas and melanomas. Several transfection studies have demonstrated the suppressive effect of
nm23
overexpression on the metastatic aggressiveness of melanoma and breast carcinoma cells in vivo. These transfection experiments have also demonstrated an effect of
nm23
overexpression on cellular functions involved in the metastatic phenotype, such as cell motility, and point to a regulatory role for Nm23 proteins in cellular signalling pathways. Nm23 homologues from various species are also involved in normal tissue development and differentiation. Transfection of nm23-H1 into breast cancer cells provided a functional demonstration of the involvement of this gene in the differentiation of mammary epithelial cells. However, the molecular mechanism of these biological effects remains unknown. Several biochemical activities have been reported for Nm23, including NDP kinase activity, serine autophosphorylation and protein-
histidine kinase
activity. To define the possible significance of these biochemical activities, we carried out site-directed mutagenesis of the relevant codons of nm23-H1 cDNA and studied the effects upon transfection into MDA-MB-435 human breast carcinoma cells. We have also used Nm23 expression as a molecular marker to identify novel compounds that are active against the most aggressive tumour cells. This approach revealed that none of the standard agents currently in clinical use is preferentially active against the most aggressive tumour cells, and allowed us to identify new compounds that are preferentially inhibitory towards low-Nm23-expressing breast carcinoma and melanoma cell lines. This analysis also revealed a significant correlation between Nm23 levels and sensitivity of the tumour cells to alkylating agents. A functional implication of Nm23 proteins in this phenomenon was demonstrated after transfection of
nm23
cDNAs into melanoma and breast and ovarian carcinoma cells.
...
PMID:Nm23 and tumour metastasis: basic and translational advances. 951 29
Nucleoside diphosphate kinase (
NDPK
,
NM23
/awd) belongs to a multifunctional family of highly conserved proteins (approximately 16-20 kDa) containing two well-characterized isoforms (
NM23-H1
and -H2; also known as
NDPK
A and B).
NDPK
catalyses the conversion of nucleoside diphosphates into nucleoside triphosphates, regulates a diverse array of cellular events and can act as a protein
histidine kinase
. AMPK (AMP-activated protein kinase) is a heterotrimeric protein complex that responds to cellular energy status by switching off ATP-consuming pathways and switching on ATP-generating pathways when ATP is limiting. AMPK was first discovered as an activity that inhibited preparations of ACC1 (acetyl-CoA carboxylase), a regulator of cellular fatty acid synthesis. We report that
NM23-H1
/
NDPK
A and AMPK alpha1 are associated in cytosol from two different tissue sources: rat liver and a human lung cell line (Calu-3). Co-immunoprecipitation and binding assay data from both cell types show that the H1/A (but not H2/B) isoform of
NDPK
is associated with AMPK complexes containing the alpha1 (but not alpha2) catalytic subunit. Manipulation of
NM23-H1
/
NDPK
A nucleotide transphosphorylation activity to generate ATP (but not GTP) enhances the activity of AMPK towards its specific peptide substrate in vitro and also regulates the phosphorylation of ACC1, an in vivo target for AMPK. Thus novel
NM23-H1
/
NDPK
A-dependent regulation of AMPK alpha1-mediated phosphorylation is present in mammalian cells.
...
PMID:A novel physical and functional association between nucleoside diphosphate kinase A and AMP-activated protein kinase alpha1 in liver and lung. 1916 May 68
Nucleoside diphosphate kinase (NDPK) (
nm23
/awd) belongs to a multifunctional family of highly conserved proteins (approximately 16 to 20 kDa) including two well-characterized isoforms (
NDPK-A
and -B). NDPK catalyzes the conversion of nucleoside diphosphates to nucleoside triphosphates, regulates a diverse array of cellular events, and can act as a protein
histidine kinase
. AMP-activated protein kinase (AMPK) is a heterotrimeric protein complex that responds to the cellular energy status by switching off ATP-consuming pathways and switching on ATP-generating pathways when ATP is limiting. AMPK was first discovered as an activity that inhibited preparations of acetyl coenzyme A carboxylase 1 (ACC1), a regulator of cellular fatty acid synthesis. We recently reported that
NDPK-A
(but not NDPK-B) selectively regulates the alpha1 isoform of AMPK independently of the AMP concentration such that the manipulation of
NDPK-A
nucleotide trans-phosphorylation activity to generate ATP enhanced the activity of AMPK. This regulation occurred irrespective of the surrounding ATP concentration, suggesting that "substrate channeling" was occurring with the shielding of NDPK-generated ATP from the surrounding medium. We speculated that AMPK alpha1 phosphorylated
NDPK-A
during their interaction, and here, we identify two residues on
NDPK-A
targeted by AMPK alpha1 in vivo. We find that
NDPK-A
S122 and S144 are phosphorylated by AMPK alpha1 and that the phosphorylation status of S122, but not S144, determines whether substrate channeling can occur. We report the cellular effects of the S122 mutation on ACC1 phosphorylation and demonstrate that the presence of E124 (absent in NDPK-B) is necessary and sufficient to permit both AMPK alpha1 binding and substrate channeling.
...
PMID:Understanding the molecular basis of the interaction between NDPK-A and AMPK alpha 1. 1877 71
Cancer metastasis is a significant contributor to breast cancer patient morbidity and mortality. In order to develop new anti-metastatic therapies, we need to understand the biological and biochemical mechanisms of metastasis. Toward these efforts, we and others have studied metastasis suppressor genes, which halt metastasis in vivo without affecting primary tumor growth. The first metastasis suppressor gene identified was
nm23
, also known as NDP kinase. Nm23 represents the most widely validated metastasis suppressor gene, based on transfection and knock-out mouse strategies. The biochemical mechanism of metastasis suppression via Nm23 is unknown and likely complex. Two potential mechanisms include binding proteins and a
histidine kinase
activity. Elevation of Nm23 expression in micrometastatic tumor cells may constitute a translational strategy for the limitation of metastatic colonization in high risk cancer patients. To date, medroxyprogesterone acetate (MPA) has been identified as a candidate compound for clinical testing.
...
PMID:Translational approaches using metastasis suppressor genes. 1694 1
Recent studies from multiple laboratories, including our own, provided fresh insights into the contributory roles for GTP-binding proteins (G-proteins) in glucose-stimulated insulin secretion (GSIS) from the islet beta cell. However, the precise mechanisms underlying the activation of this class of signaling proteins by insulin secretagogues remain only partially understood. We recently proposed that
nm23
/nucleoside diphosphate kinase (NDPK) catalyzes an alternate, non-receptor-dependent activation of islet endogenous G-proteins. In further support of this proposal, we report, herein, that overexpression of wild type (WT) nm23-H1 mutant in INS cells markedly potentiated GSIS. However, an inactive mutant of nm23-H1(H118F), which is deficient in
histidine kinase
and NDPK activities, was considerably less effective in potentiating GSIS from these cells, suggesting that both of these activities may be relevant for the potentiating effects of nm23-H1. Potential significance of these findings in relation to contributory roles for
nm23
/NDPK-like enzymes in the stimulus-secretion coupling of GSIS is discussed.
...
PMID:Regulatory roles for nm23/nucleoside diphosphate kinase-like enzymes in insulin secretion from the pancreatic islet beta cell. 1695 85
NM23-H1
is a metastasis suppressor protein that exhibits 3'-5' exonuclease activity in vitro. As 3'-5' exonucleases are generally required for maintenance of genome integrity, this activity represents a plausible candidate mediator of the metastasis suppressor properties of the
NM23-H1
molecule. Consistent with an antimutator function, ablation of the yeast
NM23
homolog, YNK1, results in increased mutation rates following exposure to UV irradiation and exposure to the DNA damaging agents etoposide, cisplatin, and MMS. In human cells, a DNA repair function is further suggested by increased
NM23-H1
expression and nuclear translocation following DNA damage. Also, forced expression of
NM23-H1
in
NM23
-deficient and metastatic cell lines results in coordinate downregulation of multiple DNA repair genes, possibly reflecting genomic instability associated with the
NM23
-deficient state. To assess the relevance of the 3'-5' exonuclease activity of
NM23-H1
to its antimutator and metastasis suppressor functions, a panel of mutants harboring defects in the 3'-5' exonuclease and other enzymatic activities of the molecule (
NDPK
,
histidine kinase
) have been expressed by stable transfection in the melanoma cell line, 1205Lu. Pilot in vivo metastasis assays indicate 1205Lu cells are highly responsive to the metastasis suppressor effects of
NM23-H1
, thus providing a valuable model for measuring the extent to which the nuclease function opposes metastasis and metastatic progression.
...
PMID:Potential roles of 3'-5' exonuclease activity of NM23-H1 in DNA repair and malignant progression. 1703 95
Heterotrimeric G proteins are pivotal regulators of myocardial contractility. In addition to the receptor-induced GDP/GTP exchange, G protein alpha subunits can be activated by a phosphate transfer via a plasma membrane-associated complex of nucleoside diphosphate kinase B (
NDPK
B) and G protein betagamma-dimers (Gbetagamma). To investigate the physiological role of this phosphate transfer in cardiomyocytes, we generated a Gbeta1gamma2-dimer carrying a single amino acid exchange at the intermediately phosphorylated His-266 in the beta1 subunit (Gbeta1H266Lgamma2). Recombinantly expressed Gbeta1H266Lgamma2 were integrated into heterotrimeric G proteins in rat cardiomyocytes but were deficient in intermediate Gbeta phosphorylation. Compared with wild-type Gbeta1gamma2 (Gbeta1WTgamma2), overexpression of Gbeta1H266Lgamma2 suppressed basal cAMP formation up to 55%. A similar decrease in basal cAMP production occurred when the formation of
NDPK
B/Gbetagamma complexes was attenuated by siRNA-mediated
NDPK
B knockdown. In adult rat cardiomyocytes expressing Gbeta1H266Lgamma2, the basal contractility was suppressed by approximately 50% which correlated to similarly reduced basal cAMP levels and reduced Ser16-phosphorylation of phospholamban. In the presence of the beta-adrenoceptor agonist isoproterenol, the total cAMP formation and contractility were significantly lower in Gbeta1H266Lgamma2 than in Gbeta1WTgamma2 expressing cardiomyocytes. However, the relative isoproterenol-induced increased was not affected by Gbeta1H266Lgamma2. We conclude that the receptor-independent activation of G proteins via
NDPK
B/Gbetagamma complexes requires the intermediate phosphorylation of G protein beta subunits at His-266. Our results highlight the
histidine kinase
activity of
NDPK
B for Gbeta and demonstrate its contribution to the receptor-independent regulation of cAMP synthesis and contractility in intact cardiomyocytes.
...
PMID:Regulation of cardiac cAMP synthesis and contractility by nucleoside diphosphate kinase B/G protein beta gamma dimer complexes. 1746 26
In humans,
NM23-H1
is a metastasis suppressor whose expression is reduced in metastatic melanoma and breast carcinoma cells, and which possesses the ability to inhibit metastatic growth without significant impact on the transformed phenotype.
NM23-H1
exhibits three enzymatic activities in vitro, each with potential to maintain genomic stability, a 3'-5' exonuclease and two kinases, nucleoside diphosphate kinase (NDPK), and protein
histidine kinase
. Herein we have investigated the potential contributions of
NM23
proteins to DNA repair in the yeast, Saccharomyces cerevisiae, which contains a single
NM23
homolog, YNK1. Ablation of YNK1 delayed repair of UV- and etoposide-induced nuclear DNA damage by 3-6h. However, YNK1 had no impact upon the kinetics of MMS-induced DNA repair. Furthermore, YNK1 was not required for repair of mitochondrial DNA damage. To determine whether the nuclear DNA repair deficit manifested as an increase in mutation frequency, the CAN1 forward assay was employed. An YNK1 deletion was associated with increased mutation rates following treatment with either UV (2.6x) or MMS (1.6 x). Mutation spectral analysis further revealed significantly increased rates of base substitution and frameshift mutations following UV treatment in the ynk1Delta strain. This study indicates a novel role for YNK1 in DNA repair in yeast, and suggests an anti-mutator function that may contribute to the metastasis suppressor function of
NM23-H1
in humans.
...
PMID:YNK1, the yeast homolog of human metastasis suppressor NM23, is required for repair of UV radiation- and etoposide-induced DNA damage. 1898 98
The metastasis suppressor
NM23-H1
possesses 3 enzymatic activities in vitro, a nucleoside diphosphate kinase (NDPK), a protein
histidine kinase
and a more recently characterized 3'-5' exonuclease. Although the
histidine kinase
has been implicated in suppression of motility in breast carcinoma cell lines, potential relevance of the NDPK and 3'-5' exonuclease to metastasis suppressor function has not been addressed in detail. To this end, site-directed mutagenesis and biochemical analyses of bacterially expressed mutant
NM23-H1
proteins have identified mutations that disrupt the 3'-5' exonuclease alone (Glu(5) to Ala, or E(5) A), the NDPK and
histidine kinase
activities tandemly (Y(52) A, H(118) F) or all 3 activities simultaneously (K(12) Q). Although forced expression of
NM23-H1
potently suppressed spontaneous lung metastasis of subcutaneous tumor explants derived from the human melanoma cell line 1205LU, no significant metastasis suppressor activity was obtained with the exonuclease-deficient variants E(5) A and K(12) Q. The H(118) F mutant, which lacked both the NDPK and
histidine kinase
while retaining the 3'-5' exonuclease, also exhibited compromised suppressor activity. In contrast, each mutant retained the ability to suppress motility and invasive characteristics of 1205LU cells in culture, indicating that the
NM23-H1
molecule possesses an additional activity(s) mediating these suppressor functions. These studies provide the first demonstration that the 3'-5' exonuclease activity of
NM23-H1
is necessary for metastasis suppressor function and further indicate cooperativity of the 3 enzymatic activities of the molecule on suppression of the metastatic process.
...
PMID:Metastasis suppressor function of NM23-H1 requires its 3'-5' exonuclease activity. 2020 95
Nm23-H1 has been identified as a metastatic suppressor gene in murine melanoma cell lines. Several functions have been attributed to its activity in cancer, including a
histidine kinase
activity, DNA repair, and regulation of other proteins involved in metastatic formation. While in breast cancer,
NM23-H1
overexpression indicates a benign status through impairing progression of disease, its function is opposite in other cancers; e.g., neuroblastoma. To further understand this dichotomy of function in cancer, we have analyzed its function in prostate cancer, in which the relationship between
NM23-H1
expression and prognostic state is today controversial. In vitro, overexpression of
NM23-H1
in PC3 cells inhibited their cell motility, while downregulation of
NM23-H1
expression in these cells by RNA interference showed enhanced cell motility. Immunohistochemistry analysis performed on 346 prostate cancer tissue samples showed a relationship between high levels of
NM23-H1
expression in the nuclei of these tumorigenic cells and elevated Gleason score, with high levels of
NM23-H1
cytoplasmic staining related to metastatic stage. This retrospective survival study demonstrates that high levels of
NM23-H1
expression in the cytoplasm determine recurrence of prostate-specific antigen levels only in those patients with metastatic disease. Our findings suggest a correlation between high levels of
NM23-H1
protein in the cytoplasm of the cells and progression of prostate cancer to metastasis, thus definitively identifying
NM23-H1
as a new negative prognostic marker in prostate cancer.
...
PMID:Correlation of NM23-H1 cytoplasmic expression with metastatic stage in human prostate cancer tissue. 2155 4
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