Inorganic Polyphosphate and Energy Metabolism in Mammalian Cells

Pavlov, Evgeny; Aschar‐Sobbi, Roozbeh; Campanella, Michelangelo; Turner, Raymond J.; Gómez‐García, María; Abramov, Andrey Y.

doi:10.1074/jbc.m109.013011

Cited by 166 publications

(190 citation statements)

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“…Simultaneous measurement of mitochondrial (TMRM) and polyP (JC‐D8) signals showed that ∼40% of cellular polyP resides in mitochondria (here and below coefficient of colocalization is a Mander's X; 0.39 ± 0.08, n = 204 cells; Figure 1a,d). As we reported previously, the level of polyP in mitochondria is dependent on the energy state of mitochondria and can be modified within seconds (Pavlov et al, 2010). …”

Section: Resultssupporting

confidence: 64%

“…Accumulation of polyP in cellular organelles and vesicles can indicate a specific signaling function. In this study, we found that ∼39% of the total pool of intracellular polyP in astrocytes is located in mitochondria (Figure 1) where it plays a role in bioenergetics (Angelova, Baev, et al, 2016; Pavlov et al, 2010) and calcium handling (Abramov et al, 2007; Baev et al, 2017; Elustondo et al, 2016). The level of polyP in mitochondria has been previously shown to be dependent on the metabolic state and the age of the cells (Pavlov et al, 2010).…”

Section: Discussionmentioning

confidence: 63%

“…PolyP in the mitochondria has its functional role; it plays an important role in energy metabolism and calcium handling (Baev, Negoda, & Abramov, 2017; Pavlov et al, 2010). In agreement with our previous report, we found that in cultured astrocytes the specific polyP indicator has higher intensity in the mitochondrial area (Angelova et al, 2014) (Figure 1a).…”

Section: Resultsmentioning

confidence: 99%

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Signal transduction in astrocytes: Localization and release of inorganic polyphosphate

Angelova

Iversen

Teschemacher

et al. 2018

Glia

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Inorganic polyphosphate (polyP) is present in every cell and is highly conserved from primeval times. In the mammalian cells, polyP plays multiple roles including control of cell bioenergetics and signal transduction. In the brain, polyP mediates signaling between astrocytes via activation of purinergic receptors, however, the mechanisms of polyP release remain unknown. Here we report identification of polyP‐containing vesicles in cortical astrocytes and the main triggers that evoke vesicular polyP release. In cultured astrocytes, polyP was localized predominantly within the intracellular vesicular compartments which express vesicular nucleotide transporter VNUT (putative ATP‐containing vesicles), but not within the compartments expressing vesicular glutamate transporter 2 (VGLUT2). The number of lysosomes which contain polyP was dependent on the conditions of astrocytes. Release of polyP from a proportion of lysosomes could be induced by calcium ionophores. In contrast, polyP release from the VNUT‐containing vesicles could be triggered by various physiological stimuli, such as pH changes, polyP induced polyP release and other stimuli which increase [Ca2+]i. These data suggest that astrocytes release polyP predominantly via exocytosis from the VNUT‐containing vesicles. © 2018 Wiley Periodicals, Inc.

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Section: Resultssupporting

confidence: 64%

Section: Discussionmentioning

confidence: 63%

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Signal transduction in astrocytes: Localization and release of inorganic polyphosphate

Angelova

Iversen

Teschemacher

et al. 2018

Glia

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“…In yeast, a genome-wide screen revealed the interdependence of polyP with primary metabolism (29). In mammalian cells, alteration of mitochondrial metabolism affects polyP production (36). It has also been suggested that polyP is an activator or even a constituent of the mitochondrial permeability transition pore (37).…”

Section: Discussionmentioning

confidence: 99%

Developmental accumulation of inorganic polyphosphate affects germination and energetic metabolism in Dictyostelium discoideum

Livermore

Chubb

Saiardi

2016

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

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Inorganic polyphosphate (polyP) is composed of linear chains of phosphate groups linked by high-energy phosphoanhydride bonds. However, this simple, ubiquitous molecule remains poorly understood. The use of nonstandardized analytical methods has contributed to this lack of clarity. By using improved polyacrylamide gel electrophoresis we were able to visualize polyP extracted from Dictyostelium discoideum. We established that polyP is undetectable in cells lacking the polyphosphate kinase (DdPpk1). Generation of this ppk1 null strain revealed that polyP is important for the general fitness of the amoebae with the mutant strain displaying a substantial growth defect. We discovered an unprecedented accumulation of polyP during the developmental program, with polyP increasing more than 100-fold. The failure of ppk1 spores to accumulate polyP results in a germination defect. These phenotypes are underpinned by the ability of polyP to regulate basic energetic metabolism, demonstrated by a 2.5-fold decrease in the level of ATP in vegetative ppk1. Finally, the lack of polyP during the development of ppk1 mutant cells is partially offset by an increase of both ATP and inositol pyrophosphates, evidence for a model in which there is a functional interplay between inositol pyrophosphates, ATP, and polyP.inorganic polyphosphate | phosphate | metabolism | inositol pyrophosphate | mitochondria T he simplest biological polymer is inorganic polyphosphate (polyP), which consists of a linear chain of phosphates linked by high-energy phosphoanhydride bonds (1). Regardless of its origin, polyP is ubiquitously present in today's living organisms. The synthesis, enzymology, and role of polyP are best characterized in the bacteria Escherichia coli (2). However, polyP is also present in archaea (3), eukaryotes (4), and human cells (5). Whilst polyP is present in virtually all cellular compartments (6), it accumulates in acidocalcisomes, organelles common to bacteria and mammalian cells (7).PolyP has been implicated in a range of cellular processes over recent years, but its most basic proposed function is to act as a buffer for the level of free phosphate (8). Phosphate buffering is essential for general metabolism, and the synthesis or degradation of polyP is able to safeguard the level of free phosphate in cells. In addition, the polyanionic nature of polyP makes it a strong chelator of bivalent cations; thus polyP plays a key role in cation homeostasis. The chelation of calcium by polyP might even play a role as a calcium sink, regulating calcium signaling (8). Besides these common roles, many specific functions have been attributed to polyP in eukaryotes (see reviews in refs. 9-11). Recently its ability to function as a protein-folding chaperone (12) and to drive a newly discovered posttranslational protein modification, protein polyphosphorylation (13), have provided further insight into the mechanism of action of this simple polymer.Little is known about the synthesis or metabolism of polyP in eukaryotes. The yeast Saccharomyces c...

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“…The method of polyP detection using DAPI was first described in the early 1980s. 21 Since that time, this procedure has been used in several studies (some examples are references: 6,8,13,16,[22][23][24][25] ). Emission fluorescence of DAPI shifts to longer wavelengths in the presence of polyP: this change is specific for polyP and is not produced by PPi, DNA, or other anions.…”

Section: Polyphosphate Is Present In Myeloma Cell Linesmentioning

confidence: 99%

Myeloma cells contain high levels of inorganic polyphosphate which is associated with nucleolar transcription

Jimenez-Nuñez¹,

Moreno-Sanchez²,

Hernández-Ruiz³

et al. 2012

Haematologica

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The online version of this article has a Supplementary Appendix. BackgroundIn hematology there has recently been increasing interest in inorganic polyphosphate. This polymer accumulates in platelet granules and its functions include modulating various stages of blood coagulation, inducing angiogenesis, and provoking apoptosis of plasma cells. In this study we evaluated the characteristics of intracellular polyphosphate in myeloma cell lines, in primary myeloma cells from patients, and in other human B-cell populations from healthy donors. Design and MethodsWe have developed a novel flow cytometric method for detecting levels of polyphosphate in cell populations. We also used confocal microscopy and enzymatic analysis to study polyphosphate localization and characteristics. ResultsWe found that myeloma plasma cells contain higher levels of intracellular polyphosphate than normal plasma cells and other B-cell populations. Localization experiments indicated that high levels of polyphosphate accumulate in the nucleolus of myeloma cells. As the principal function of the nucleolus involves transcription of ribosomal DNA genes, we found changes in the cellular distribution of polyphosphate after the inhibition of nucleolar transcription. In addition, we found that RNA polymerase I activity, responsible for transcription in the nucleolus, is also modulated by polyphosphate, in a dose-dependent manner. ConclusionsOur results show an unusually high accumulation of polyphosphate in the nucleoli of myeloma cells and a functional relationship of this polymer with nucleolar transcription. Haematologica 2012;97(8):1264-1271. doi:10.3324/haematol.2011 This is an open-access paper. Myeloma cells contain high levels of inorganic polyphosphate which is associated with nucleolar transcription ABSTRACT© F e r r a t a S t o r t i F o u n d a t i o n

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Inorganic Polyphosphate and Energy Metabolism in Mammalian Cells

Cited by 166 publications

References 28 publications

Signal transduction in astrocytes: Localization and release of inorganic polyphosphate

Signal transduction in astrocytes: Localization and release of inorganic polyphosphate

Developmental accumulation of inorganic polyphosphate affects germination and energetic metabolism in Dictyostelium discoideum

Myeloma cells contain high levels of inorganic polyphosphate which is associated with nucleolar transcription

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