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Query: EC:2.7.1.1 (
hexokinase
)
5,274
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The proportion of
hexokinase
that is bound to the outer mitochondrial membrane is tissue specific and metabolically regulated. This study examined the role of the N,N-dicyclohexylcarbodiimide-binding domain of mitochondrial porin in binding to hexokinase 1. Selective proteolytic cleavage of porin protein was performed and peptides were assayed for their, effect on hexokinase I binding to isolated mitochondria. Specificity of DCCD-reactive domain binding to hexokinase I was demonstrated by competition of the peptides for porin binding sites on
hexokinase
as well as by blockage
hexokinase
binding by N,N-dicyclohexylcarbodiimide. One of the peptides, designated as 5 kDa (the smallest of the porin peptides, which contains a DCCD-reactive site), totally blocked binding of the enzyme to the mitochondrial membrane, and significantly enhanced the release of the mitochondrially bound enzyme. These experiments demonstrate that there exists a direct and specific interaction between the DCCD-reactive domain of
VDAC
and hexokinase I. The peptides were further characterized with respect to their effects on certain functional properties of hexokinase I. None had any detectable effect on catalytic properties, including inhibition by glucose 6-phosphate. To evaluate further the outer mitochondrial membrane's role in the
hexokinase
binding, insertion of
VDAC
was examined using isolated rat mitochondria. Preincubation of mitochondria with purified porin strongly increases hexokinase I binding to rat liver mitochondria. Collectively, the results imply that the high
hexokinase
-binding capability of porin-enriched mitochondria was due to a quantitative difference in binding sites.
...
PMID:Involvement of porin N,N-dicyclohexylcarbodiimide-reactive domain in hexokinase binding to the outer mitochondrial membrane. 1575 12
Hexokinase is known as the first enzyme and rate-limiting step in glycolysis. The role of
hexokinase
activity and localization in regulating the rate of axonal regeneration was studied in cultured adult sensory neurons of dorsal root ganglia (DRG). Immunofluorescent staining of DRG demonstrated that small-medium neurons and satellite cells exhibited high levels of expression of hexokinase I. Large neurons had negative staining for hexokinase I. Intracellular localization and biochemical studies in cultured adult rat sensory neurons revealed that hexokinase I was almost exclusively found in the mitochondrial compartment. The hypothesis that neurotrophic factor dependent activation of Akt would regulate
hexokinase
association with the mitochondria was tested and quantitative Western blotting showed no effect of blockade of the phosphoinositide 3-kinase (PI 3-kinase)/Akt pathway using the inhibitor LY294002, indicating this interaction of
hexokinase
with mitochondria was not neurotrophic factor or Akt-dependent. Finally, pharmacological blockade of
hexokinase
activity and inhibition of localization to the mitochondrial compartment with hexokinase II
VDAC
binding domain (Hxk2VBD) peptide caused a significant inhibition of neurotrophic factor-directed axon outgrowth. The results support a key role for
hexokinase
activity and/or localization to the mitochondria in the regulation of neurite outgrowth in cultured adult sensory neurons.
...
PMID:Blockade of hexokinase activity and binding to mitochondria inhibits neurite outgrowth in cultured adult rat sensory neurons. 1830 70
Reversible protein-phosphorylation is emerging as a key player in the regulation of mitochondrial functions. In particular tyrosine phosphorylation represents a promising field to highlight new mechanisms of bioenergetic regulation. Utilizing immunoaffinity enrichment of phosphotyrosine-containing peptides coupled to mass spectrometric analysis we detected new tyrosine phosphorylated proteins in rat brain mitochondria after peroxovanadate treatment. By bioinformatic predictions we provide suggestions about the potential role of tyrosine phosphorylation in mitochondrial physiology. Our results indicate a primary role of tyrosine phosphorylation in regulating energy production at the mitochondrial level. Moreover, tyrosine phosphorylation might regulate the mitochondrial membrane permeability targeting protein complexes containing ADP/ATP translocase,
VDAC
, creatine kinase and
hexokinase
.
...
PMID:Identification of new tyrosine phosphorylated proteins in rat brain mitochondria. 1833 41
Proper cell activity requires an efficient exchange of molecules between mitochondria and cytoplasm. Lying in the outer mitochondrial membrane,
VDAC
assumes a crucial position in the cell, forming the main interface between the mitochondrial and the cellular metabolisms. As such, it has been recognized that
VDAC
plays a crucial role in regulating the metabolic and energetic functions of mitochondria. Indeed, down-regulation of VDAC1 expression by shRNA leads to a decrease in energy production and cell growth.
VDAC
has also been recognized as a key protein in mitochondria-mediated apoptosis through its involvement in the release of apoptotic proteins located in the inter-membranal space and as the proposed target of pro- and anti-apoptotic members of the Bcl2-family and of
hexokinase
. Questions, however, remain as to if and how
VDAC
mediates the transfer of apoptotic proteins from the inter-membranal space to the cytosol. The diameter of the
VDAC
pore is only about 2.5-3 nm, insufficient for the passage of a folded protein like cytochrome c. New work, however, suggests that pore formation involves the assembly of homo-oligomers of
VDAC
or hetero-oligomers composed of
VDAC
and pro-apoptotic proteins, such as Bax. Thus,
VDAC
appears to represent a convergence point for a variety of cell survival and cell death signals. This review provides insight into the central role of
VDAC
in mammalian cell life and death, emphasizing
VDAC
function in the regulation of mitochondria-mediated apoptosis and, as such, its potential as a rational target for new therapeutics.
...
PMID:Uncovering the role of VDAC in the regulation of cell life and death. 1865 Dec 12
Recently, it was demonstrated that some anti-cancer agents used mitochondrial voltage-dependent anion channels (VDAC1-3 isoforms) as their pharmacological target. VDACs are expressed more highly in cancer cells than normal cells; thus the
VDAC
-dependent cytotoxic agents can have cancer-selectivity. Furanonaphthoquinones (FNQs) induced caspase-dependent apoptosis via the production of NADH-dependent reactive oxygen species (ROS) by VDAC1. The ROS production and the anti-cancer activity of FNQs were increased by VDAC1 overexpression. Meanwhile, erastin induced RAS-RAF-MEK-dependent non-apoptotic cell death via VDAC2. On the other hand, VDACs were needed for transporting ATP to
hexokinase
(HK), which was highly expressed in cancer cells. We hypothesized that the high glycolysis might induce up-regulation of
VDAC
. In this review, we propose that VDACs are novel candidates for effective pharmacological targets of anti-cancer drugs.
...
PMID:Mitochondrial voltage-dependent anion channels (VDACs) as novel pharmacological targets for anti-cancer agents. 1870 66
The primary structure of native human type-1 voltage dependent anion-selective channel/porin was presented twenty years ago, so was first data on its extra-mitochondrial expression in cell membranes of lymphocytes. Then, the channel had already entered cancer research as the docking molecule for
hexokinase
at outer mitochondrial membrane. Cell membrane standing porin met the cancer field only four years ago, when it was reported that normal and cancerous prostate cells from a single patient differed in the expression level of the channel. Meanwhile studies on a role of
VDAC
in cell differentiation, apoptosis, cancer and even pharmacology increase, mostly focused on porin in the outer membrane of mitochondria, but sometimes also pointing to the channel in the plasmalemma, e.g. prostate cancer cells on their way to neuroendocrine-differentiation. The synopsis presented discusses some recent papers on this issue, and argues in favor of considering voltage dependent anion-selective channel-cored volume regulated anion channel complexes in studies focused on apoptosis and cancer, where the channel might be part of the extrinsic cell death pathway. In this context, heed should also be given to the interaction of extra-mitochondrial porin and estrogen receptors alpha in cell membrane caveolae. Finally, it is insinuated to search for natural antibodies against type-1 porin, what in combination with other established markers might help in early diagnosis of prostate cancer.
...
PMID:Neuroendocrine differentiation of LNCaP cells suggests: VDAC in the cell membrane is involved in the extrinsic apoptotic pathway. 1948 48
The aim of this review is to analyze the results of experimental research of mechanisms of regulation of mitochondrial respiration in cardiac and skeletal muscle cells in vivo obtained by using the permeabilized cell technique. Such an analysis in the framework of Molecular Systems Bioenergetics shows that the mechanisms of regulation of energy fluxes depend on the structural organization of the cells and interaction of mitochondria with cytoskeletal elements. Two types of cells of cardiac phenotype with very different structures were analyzed: adult cardiomyocytes and continuously dividing cancerous HL-1 cells. In cardiomyocytes mitochondria are arranged very regularly, and show rapid configuration changes of inner membrane but no fusion or fission, diffusion of ADP and ATP is restricted mostly at the level of mitochondrial outer membrane due to an interaction of heterodimeric tubulin with voltage dependent anion channel,
VDAC
.
VDAC
with associated tubulin forms a supercomplex, Mitochondrial Interactosome, with mitochondrial creatine kinase, MtCK, which is structurally and functionally coupled to ATP synthasome. Due to selectively limited permeability of
VDAC
for adenine nucleotides, mitochondrial respiration rate depends almost linearly upon the changes of cytoplasmic ADP concentration in their physiological range. Functional coupling of MtCK with ATP synthasome amplifies this signal by recycling adenine nucleotides in mitochondria coupled to effective phosphocreatine synthesis. In cancerous HL-1 cells this complex is significantly modified: tubulin is replaced by
hexokinase
and MtCK is lacking, resulting in direct utilization of mitochondrial ATP for glycolytic lactate production and in this way contributing in the mechanism of the Warburg effect. Systemic analysis of changes in the integrated system of energy metabolism is also helpful for better understanding of pathogenesis of many other diseases.
...
PMID:Structure-function relationships in feedback regulation of energy fluxes in vivo in health and disease: mitochondrial interactosome. 2009 61
The voltage-dependent anion channel (
VDAC
, also known as mitochondrial porin) is the major transport channel mediating the transport of metabolites, including ATP, across the mitochondrial outer membrane. Biochemical data demonstrate the binding of the cytosolic protein
hexokinase
-I to
VDAC
, facilitating the direct access of
hexokinase
-I to the transported ATP. In human cells, three hVDAC isoforms have been identified. However, little is known on the distribution of these isoforms within the outer membrane of mitochondria and to what extent they colocalize with
hexokinase
-I. In this study we show that whereas hVDAC1 and hVDAC2 are localized predominantly within the same distinct domains in the outer membrane, hVDAC3 is mostly uniformly distributed over the surface of the mitochondrion. We used two-color stimulated emission depletion (STED) microscopy enabling a lateral resolution of ~40 nm to determine the detailed sub-mitochondrial distribution of the three hVDAC isoforms and
hexokinase
-I. Individual hVDAC and
hexokinase
-I clusters could thus be resolved which were concealed in the confocal images. Quantitative colocalization analysis of two-color STED images demonstrates that within the attained resolution,
hexokinase
-I and hVDAC3 exhibit a higher degree of colocalization than
hexokinase
-I with either hVDAC1 or hVDAC2. Furthermore, a substantial fraction of the mitochondria-bound
hexokinase
-I pool does not colocalize with any of the three hVDAC isoforms, suggesting a more complex interplay of these proteins than previously anticipated. This study demonstrates that two-color STED microscopy in conjunction with quantitative colocalization analysis is a powerful tool to study the complex distribution of membrane proteins in organelles such as mitochondria.PACS: 87.16.Tb, 87.85.Rs.
...
PMID:Two-color STED microscopy reveals different degrees of colocalization between hexokinase-I and the three human VDAC isoforms. 2020 11
Knowledge of re-programming in cancer cells with metabolic differences from their normal counterparts has resulted in new examination of therapeutic approaches. Several studies of the role of tumor mitochondria in cancer have led to the development of non-genotoxic therapies which target mitochondrial proteins, function. The now well-established functions of mitochondria in apoptosis provide novel targets for tumor cell suicide. Mitochondria serve as a central hub for responses to cellular stress as well as injury. The alterations in cancer cells which result in protection from apoptosis can be targeted to inhibit proliferation. Because of the reprogramming of cancer cell metabolism involving increased glycolysis, it appears that blocking InsP(3)R Ca(2+) release or adaptive pathways in response to hypoxia by targeting HIF-1 or metabolic enzymes encoded by the HIF-1 gene represents a feasible therapeutic approach to cancer. A very early in vitro event found in tumor cells following resveratrol addition is an increase in intracellular Ca(2+), measurable within seconds. Ca(2+) release is also observed with non-toxic flavonoids and a goal to identify the sentinel targets of resveratrol as a model compound involved in calcium activation seems worthwhile. New findings of the relationship between autophagy and apoptosis are discussed. The contribution of reactive oxygen species (ROS) generated by mitochondria is also considered. New data as to how cyclophilins and
VDAC
are involved in mitochondrial
hexokinase
protection of factors that induce apoptosis are reviewed. In addition, chemotherapeutic approaches based on Akt-activated mTORC1 are described, and their relationship to the role of aerobic glycolysis in this protection.
...
PMID:Targeting mitochondria as a therapeutic target in cancer. 2150 75
Mitochondrial permeability transition is typically characterized by Ca(2+) and oxidative stress-induced opening of a nonselective proteinaceous membrane pore sensitive to cyclosporin A, known as the permeability transition pore (PTP). Data from our laboratory provide evidence that the PTP is formed when inner membrane proteins aggregate as a result of disulfide cross-linking caused by thiol oxidation. Here we compared the redox properties between PTP in intact mitochondria and mitoplasts. The rat liver mitoplasts retained less than 5% and 10% of the original outer membrane markers monoamine oxidase and
VDAC
, respectively. Kidney mitoplasts also showed a partial depletion of
hexokinase
. In line with the redox nature of the PTP, mitoplasts that were more susceptible to PTP opening than intact mitochondria showed higher rates of H(2)O(2) generation and decreased matrix NADPH-dependent antioxidant activity. Mitoplast PTP was also sensitive to the permeability transition inducer tert-butyl hydroperoxide and to the inhibitors cyclosporin A, EGTA, ADP, dithiothreitol and catalase. Taken together, these data indicate that, in mitoplasts, PTP exhibits redox regulatory characteristics similar to those described for intact mitochondria.
...
PMID:Reactive oxygen species and permeability transition pore in rat liver and kidney mitoplasts. 2196 37
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