Hans-Joerg Hippe scite author profile

Formation of GTP by nucleoside diphosphate kinase (NDPK) can contribute to G protein activation in vitro.To study the effect of NDPK on G protein activity in living cells, the NDPK isoforms A and B were stably expressed in H10 cells, a cell line derived from neonatal rat cardiomyocytes. Overexpression of either NDPK isoform had no effect on cellular GTP and ATP levels, basal cAMP levels, basal adenylyl cyclase activity, and the expression of G s ␣ and G i ␣ proteins. However, co-expression of G s ␣ led to an increase in cAMP synthesis that was largely enhanced by the expression of NDPK B, but not NDPK A, and that was confirmed by direct measurement of adenylyl cyclase activity. Cells expressing an inactive NDPK B mutant (H118N) exhibited a decreased cAMP formation in response to G s ␣. Co-immunoprecipitation studies demonstrated a complex formation of the NDPK with G␤␥ dimers. The overexpression of NDPK B, but not its inactive mutant or NDPK A, increased the phosphorylation of G␤ subunits. In summary, our data demonstrate a specific NDPK B-mediated activation of a G protein in intact cells, which is apparently caused by formation of NDPK B⅐G␤␥ complexes and which appears to contribute to the receptor-independent activation of heterotrimeric G proteins. Nucleoside diphosphate kinase (NDPK)1 catalyzes the transfer of terminal phosphate groups from 5Ј-triphosphate to 5Ј-diphosphate nucleotides. In the cell, the major reaction is the phosphate transfer from ATP to other NDPs to maintain the levels of NTPs, especially the relatively high level of GTP. Only a small fraction of cellular NDPK binds to the plasma membrane, where it may serve the synthesis of GTP, required for the activation of G proteins (1-3). An activation of G proteins by NDPK has been disputed for more than 10 years. Although numerous in vitro studies (4 -7) have shown G protein activation through the enzymatic activity of NDPK (synthesis of GTP from a nucleoside triphosphate and GDP), the specificity of this phenomenon has been questioned (8, 9). Particularly in the intact cell, where GTP concentrations are in the upper micromolar range, evidence for a mechanism beyond the sole synthesis of GTP appears mandatory to support this hypothesis. On the other hand, we have shown recently (10) that NDPK activates G proteins and regulates adenylyl cyclase activity in canine cardiac sarcolemmal membranes. This activation required the catalytic activity of NDPK (synthesis of GTP) but was clearly distinct from the effect of exogenous GTP, suggesting a more direct interaction of NDPK and G proteins.Evaluation of direct G protein activation through phosphotransfer by NDPK is associated with substantial methodological constraints. Mainly, GDP is released spontaneously from G proteins and may then serve as a free substrate for phosphorylation by the NDPK (8). Approaches to immobilize the bound GDP at the G protein (11) are associated with protein denaturation, which in turn may lead to unspecific protein phosphorylation by the NDPK (12). In addition, structural con...

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The interaction of nucleoside diphosphate kinase B with Gβγ dimers controls heterotrimeric G protein function

Hippe

Wolf

Abu-Taha

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Heterotrimeric G proteins in physiological and pathological processes have been extensively studied so far. However, little is known about mechanisms regulating the cellular content and compartmentalization of G proteins. Here, we show that the association of nucleoside diphosphate kinase B (NDPK B) with the G protein ␤␥ dimer (G␤␥) is required for G protein function in vivo. In zebrafish embryos, morpholino-mediated knockdown of zebrafish NDPK B, but not NDPK A, results in a severe decrease in cardiac contractility. The depletion of NDPK B is associated with a drastic reduction in G␤ 1␥2 dimer expression. Moreover, the protein levels of the adenylyl cyclase (AC)-regulating G␣ s and G␣i subunits as well as the caveolae scaffold proteins caveolin-1 and -3 are strongly reduced. In addition, the knockdown of the zebrafish G␤ 1 orthologs, G␤1 and G␤1like, causes a cardiac phenotype very similar to that of NDPK B morphants. The loss of G␤ 1/G␤1like is associated with a down-regulation in caveolins, AC-regulating G␣-subunits, and most important, NDPK B. A comparison of embryonic fibroblasts from wild-type and NDPK A/B knockout mice demonstrate a similar reduction of G protein, caveolin-1 and basal cAMP content in mammalian cells that can be rescued by re-expression of human NDPK B. Thus, our results suggest a role for the interaction of NDPK B with G␤␥ dimers and caveolins in regulating membranous G protein content and maintaining normal G protein function in vivo.cAMP ͉ cardiac contractility ͉ G proteins ͉ NDPK ͉ zebrafish S ignaling through the activation of G proteins represents the most widely used signaling pathway in mammalian biology (1). A variety of G protein-coupled receptors (GPCRs) mediate extracellular signals via heterotrimeric G proteins, which are composed of a guanine nucleotide binding ␣-subunit (G␣), as well as a ␤-subunit (G␤) and a ␥-subunit (G␥). Upon GPCR activation, the bound GDP in G␣ is exchanged for GTP and both the GTP-liganded G␣ and the stable dimer G␤␥ regulate downstream effectors (2).Nucleoside diphosphate kinases (NDPKs), which catalyze the transfer of ␥-phosphate between NTPs and NDPs, represent a family of multifunctional proteins encoded by nine human nm23 genes. The two major isoforms, NDPK A and B (17-21 kDa), play crucial roles in a wide array of cellular processes [for review see (3)]. Despite their high sequence homology and the well known formation of heterohexamers to perform their house keeping enzyme activity (4), NDPK A and B have distinct cellular functions, which are based on the possibility of both isoforms contributing to multimeric protein complexes like the SET complex (5) and a complex formed with Ca 2ϩ -activated potassium channel KCa3.1 (6). In such complexes, NDPK not only supplies NTPs but also acts as protein kinase (6). We have previously shown that NDPK B, but not NDPK A, forms a complex with G␤␥ (7, 8) and acts as a histidine kinase for G␤. The high energetic phosphate on G␤ can be specifically transferred to GDP and the GTP that is formed, induces G protei...

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Persistently elevated osteopontin serum levels predict mortality in critically ill patients

et al. 2015

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IntroductionInflammatory, autoimmune and metabolic disorders have been associated with alterations in osteopontin (OPN) serum levels. Furthermore, elevated serum levels of OPN were reported from a small cohort of patients with sepsis. We therefore analyzed OPN serum concentrations in a large cohort of critically ill medical patients.MethodsA total of 159 patients (114 with sepsis, 45 without sepsis) were studied prospectively upon admission to the medical intensive care unit (ICU) as well as after 3 days of ICU treatment and compared to 50 healthy controls. Clinical data, various laboratory parameters as well as investigational inflammatory cytokine profiles were assessed. Patients were followed for approximately 1 year.ResultsWe found significantly elevated serum levels of OPN at admission to the ICU and after 3 days of treatment in critically ill patients compared to healthy controls. OPN concentrations were related to disease severity and significantly correlated with established prognosis scores and classical as well as experimental markers of inflammation and multi-organ failure. In the total cohort, OPN levels decreased from admission to day 3 of ICU treatment. However, persistently elevated OPN levels at day 3 of ICU treatment were a strong independent predictor for an unfavorable prognosis, with similar or better diagnostic accuracy than routinely used markers of organ failure or prognostic scoring systems such as SAPS2 or APACHE II score.ConclusionsPersistently elevated OPN serum concentrations are associated with an unfavourable outcome in patients with critical illness, independent of the presence of sepsis. Besides a possible pathogenic role of OPN in critical illness, our study indicates a potential value for OPN as a prognostic biomarker in critically ill patients during the early course of ICU treatment.Electronic supplementary materialThe online version of this article (doi:10.1186/s13054-015-0988-4) contains supplementary material, which is available to authorized users.

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Hans-Joerg Hippe

RIP3, a kinase promoting necroptotic cell death, mediates adverse remodelling after myocardial infarction

Levels of Circulating miR-133a Are Elevated in Sepsis and Predict Mortality in Critically Ill Patients

Activation of Heterotrimeric G Proteins by a High Energy Phosphate Transfer via Nucleoside Diphosphate Kinase (NDPK) B and Gβ Subunits

The interaction of nucleoside diphosphate kinase B with Gβγ dimers controls heterotrimeric G protein function

Persistently elevated osteopontin serum levels predict mortality in critically ill patients

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