Phosphoinositides – The Seven Species: Conversion and Cellular Roles

Lietha, Daniel

doi:10.1002/9780470015902.a0023177

Cited by 6 publications

(8 citation statements)

References 34 publications

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“…Surprisingly, NCT-504 also robustly increased PI(3,5)P2 levels, and to a lesser extent increased levels of PI3P ( Figure 2B and E ). We did not observe an effect on PI(4,5)P2 levels ( Figure 2F ), which is consistent with other reports indicating that the cellular levels of this lipid are mostly generated from PI4P via type I PI4P 5-kinases ( Lietha, 2011 ). Kinetic measurement of PI levels showed that NCT-504 causes an increase in PI5P, PI(3,5)P2 and PI3P levels along with a decrease in PI4P, progressively over 12 hr ( Figure 2—figure supplement 2 ).…”

Section: Resultssupporting

confidence: 93%

“…Note that other PI levels were not tested in the dPI4PK Drosophila mutant. We hypothesized that elevation of PI5P might further impact the equilibrium between various PI species ( Lietha, 2011 ; Emerling et al, 2014 ; Balla, 2013 ). To test this hypothesis, we exposed wild type mouse embryonic fibroblasts to nontoxic concentrations of NCT-504 (10 μM) for 12 hr, and then evaluated the levels of PI by HPLC ( Figure 2 ; toxicity assay in Figure 2—figure supplement 1 ).…”

Section: Resultsmentioning

confidence: 99%

“…The protein is predominantly localized in several tissues, including the brain ( Sasaki et al, 2009 ; Rameh et al, 1997 ; Clarke et al, 2008 ; Clarke et al, 2009 ). Enzymatically, PIP4Kγ phosphorylates phosphatidylinositol-5-phosphate [PI5P] to produce phosphatidylinositol 4,5-bisphosphate [PI(4,5)P2] ( Lietha, 2011 ). The biological function of PIP4Kγ is not completely understood, although recent reports suggest a role in the modulation of vesicle trafficking ( Clarke et al, 2008 ), and mTOR signaling ( Mackey et al, 2014 ).…”

Section: Introductionmentioning

confidence: 99%

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Inhibition of PIP4Kγ ameliorates the pathological effects of mutant huntingtin protein

Al‐Ramahi

Giridharan

Chen

et al. 2017

eLife

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The discovery of the causative gene for Huntington’s disease (HD) has promoted numerous efforts to uncover cellular pathways that lower levels of mutant huntingtin protein (mHtt) and potentially forestall the appearance of HD-related neurological defects. Using a cell-based model of pathogenic huntingtin expression, we identified a class of compounds that protect cells through selective inhibition of a lipid kinase, PIP4Kγ. Pharmacological inhibition or knock-down of PIP4Kγ modulates the equilibrium between phosphatidylinositide (PI) species within the cell and increases basal autophagy, reducing the total amount of mHtt protein in human patient fibroblasts and aggregates in neurons. In two Drosophila models of Huntington’s disease, genetic knockdown of PIP4K ameliorated neuronal dysfunction and degeneration as assessed using motor performance and retinal degeneration assays respectively. Together, these results suggest that PIP4Kγ is a druggable target whose inhibition enhances productive autophagy and mHtt proteolysis, revealing a useful pharmacological point of intervention for the treatment of Huntington’s disease, and potentially for other neurodegenerative disorders.

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Section: Resultssupporting

confidence: 93%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Inhibition of PIP4Kγ ameliorates the pathological effects of mutant huntingtin protein

Al‐Ramahi

Giridharan

Chen

et al. 2017

eLife

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“…Receptor 13 is a useful tool for exploring PIP 2 -dependent cellular processes, many of which are linked to diseases including cancer [74], diabetes [14] and Lowe syndrome [45]. This work has identified PIP 2 as a potential drug target in the diagnosis and treatment of these disorders.…”

Section: Molecular Recognition Of Phosphatidylinositol Bisphosphate Wmentioning

confidence: 99%

Molecular recognition with boronic acids—applications in chemical biology

2013

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Small molecules have long been used for the selective recognition of a wide range of analytes. The ability of these chemical receptors to recognise and bind to specific targets mimics certain biological processes (such as proteinsubstrate interactions) and has therefore attracted recent interest. Due to the abundance of biological molecules possessing polyhydroxy motifs, boronic acids-which form fivemembered boronate esters with diols-have become increasingly popular in the synthesis of small chemical receptors. Their targets include biological materials and natural products including phosphatidylinositol bisphosphate, saccharides and polysaccharides, nucleic acids, metal ions and the neurotransmitter dopamine. This review will focus on the many ways in which small chemical receptors based on boronic acids have been used as biochemical tools for various purposes, including sensing and detection of analytes, interference in signalling pathways, enzyme inhibition and cell delivery systems. The most recent developments in each area will be highlighted.

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“…These lipids recruit a unique set of effector proteins, which have PI recognition domains. Upon binding, the effector proteins are either guided to the appropriate location inside the cell or their activity is being modulated (Lietha, 2011).…”

Section: Phosphoinositides: Important Spatio-temporal Regulators Of Cell Signaling and Intracellular Traffickingmentioning

confidence: 99%

Role of PIKfyve in macrophage and neutrophil immune response

Dayam¹

2021

Preprint

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Solid particles such as pathogens, dying cells, and debris are engulfed by macrophages and neutrophils and sequestered into a phagosome. Phagosomes fuse with early and late endosomes and ultimately with lysosomes to mature into phagolysosomes, a process known as phagosome maturation. The formation of highly acidic and degradative phagolysosomes plays an important role in degradation of the internalized particle. We employed siRNA and pharmacological tools to demonstrate that phosphatidylinositol-3,5-bisphosphate [PI(3,5)P2], synthesized by the PIKfyve lipid kinase, is required for phagosome maturation. However, the mechanism by which PI(3,5)P2 controls phagosome maturation remained uncharacterized. We hypothesized that PI(3,5)P2 may control phagosome-lysosome fusion partly by stimulating TRPML1, a lysosomal Ca2+ channel gated by PI(3,5)P2. Upon opening of the channel, lysosomal Ca2+ would diffuse and trigger phagosome-lysosome fusion since Ca2+ is known to induce membrane fusion post-docking of SNARE proteins. In addition, we also demonstrated that the lipid kinase PIKfyve coordinates the neutrophils immune response by controlling phagosome maturation and regulating Rac GTPase activity. PIKfyve produces both PI(3,5)P2 and phosphatidylinositol-5-phosphate (PI5P); therefore, it might control phagosome maturation through production of PI(3,5)P2 and activation of TRPML1 as well as regulates ROS production and chemotaxis through synthesis of PI5P, which leads to the activation of Tiam1, and Rac GTPase.

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Phosphoinositides – The Seven Species: Conversion and Cellular Roles

Cited by 6 publications

References 34 publications

Inhibition of PIP4Kγ ameliorates the pathological effects of mutant huntingtin protein

Inhibition of PIP4Kγ ameliorates the pathological effects of mutant huntingtin protein

Molecular recognition with boronic acids—applications in chemical biology

Role of PIKfyve in macrophage and neutrophil immune response

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