Neuronal IP<sub>3</sub>3-Kinase is an F-actin–bundling Protein: Role in Dendritic Targeting and Regulation of Spine Morphology

Johnson, Hong W.; Schell, Michael J.

doi:10.1091/mbc.e09-01-0083

Cited by 145 publications

(160 citation statements)

References 54 publications

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“…Because of the fact that filopodia and lamellipodia are crucial for cells to migrate, 7 we suggest that the stimulating effect of ITPKA on cell migration and ITPKA induced formation of cell processes are functionally related. The mechanism how ITPKA induces the formation of linear filopodialike protrusions can be explained by its F-actin bundling activity 4,6 as filopodia mainly consist of linear F-actinbundles. These thin finger-like structures are required for cells to adhere to the substrate, providing the first step for cells to migrate.…”

Section: Discussionmentioning

confidence: 99%

“…As branched cell processes consist of a dense network of branched and/or crossed-linked actin filaments and ITPKA was identified as an F-actin bundling protein, 4,6 known to produce linear actin filaments, we assumed that interaction of ITPKA with additional accessory proteins may be necessary to induce the formation of lamellipodia-like protrusions. To identify such potential interaction partners, a yeast two hybrid screen was performed using a human neuronal cDNA library.…”

Section: Itpka Interacts With Filamin Cmentioning

confidence: 99%

“…In order to specify the type of interaction, the wild type EGFP-ITPKA fusion protein, an EGFP-ITPKA fusion protein with a point mutation that prevents actin binding (L34P 4,6 ), an EGFP-ITPKA fusion protein lacking the actin binding domain (ITPKADABD, with deletion of aa 1-66 2 ), and EGFP as control were overexpressed in LN 4323 cells. As shown in Fig.…”

Section: Itpka Interacts With Filamin Cmentioning

confidence: 99%

“…It bundles actin filaments by formation of homodimers and binding to F-actin, making ITPKA to an important regulator of spine morphology. 4 Beside this physiological role, we recently have found a pathological function of ITPKA in tumor cells. We revealed that particular tumor cell lines express ITPKA and demonstrated that this ectopic expression of ITPKA increased the metastatic potential of tumor cells.…”

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confidence: 95%

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Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Windhorst

Kalinina

Schmid

et al. 2011

Intl Journal of Cancer

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Cell migration is one of the hallmarks of metastatic disease and thus identification of migration promoting proteins is crucial for the understanding of metastasis formation. Here we show that the neuron-specific, F-actin bundling inositol-1,4,5-trisphosphate-3-kinase-A (ITPKA) is ectopically expressed in tumor cells and critically involved in migration. Down-regulation of ITPKA expression in transformed cell-lines with ectopic expression of ITPKA significantly decreased migration and the number of linear and branched cell protrusion. Conversely, up-regulation of ITPKA in tumor cell lines with low endogenous ITPKA expression increased migration and formation of cell processes. In vitro, ITPKA alone induced the formation of linear actin filaments, whereas ITPKA mediated formation of branched protrusions seems to result from interaction between ITPKA and the F-actin cross-linking protein filamin C. Based on these actin-modulating and migration-promoting effects of ITPKA we examined its expression in clinical samples of different tumor entities, starting with the analysis of multiple tumor tissue arrays. As in lung adenocarcinoma specimens, the highest ITPKA expression rate was found, this tumor entity was examined in more detail. ITPKA was expressed early in adenocarcinoma progression (pN0) and was largely maintained in invasive and metastatic tumor cell populations (pN1/2, lymph node metastases). Together with our result that high expression of ITPKA increases motility of tumor cells we conclude that the observed expression of ITPKA early in tumor development increases the metastatic potential of lung adenocarcinoma cells. Therefore, we suggest that ITPKA may be a promising therapeutic molecular target for anti metastatic therapy of lung cancer.Under physiological conditions, inositol-1,4,5-trisphosphate-3-kinase-A (ITPKA, GeneAtlas, V133A gcma, BioGPS, http:// biogps.gnf.org/#goto¼genereport&id¼3706) is only expressed in hippocampal, cortical and cerebellar neurons.1 In these cells expression of ITPKA increases during brain development 1 and is highest in mature neurons, where the protein accumulates in dendritic spines.2 Through conversion of inositol-1,4,5-trisphosphate (InsP 3 ) to inositol-1,3,4,5-tetrakisphosphate (InsP 4 ) ITPKA is an important regulator of InsP 3 induced calcium signaling in dendritic spines. 2,3 In addition to this catalytic activity, it has been shown that ITPKA has Factin bundling activity. It bundles actin filaments by formation of homodimers and binding to F-actin, making ITPKA to an important regulator of spine morphology. 4 Beside this physiological role, we recently have found a pathological function of ITPKA in tumor cells. We revealed that particular tumor cell lines express ITPKA and demonstrated that this ectopic expression of ITPKA increased the metastatic potential of tumor cells. Because of its F-actin bundling activity, ITPKA induces the formation of filopodia-and lamellipodia-like protrusions, 5,6 which are critical for cells to migrate. 7 This nonenzymatic migration-prom...

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Section: Discussionmentioning

confidence: 99%

Section: Itpka Interacts With Filamin Cmentioning

confidence: 99%

Section: Itpka Interacts With Filamin Cmentioning

confidence: 99%

mentioning

confidence: 95%

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Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Windhorst

Kalinina

Schmid

et al. 2011

Intl Journal of Cancer

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“…Therefore, spermatozoa ability to fertilize is tightly associated to a remodeling in cytoskeletal compounds. It is well-known that inositols are involved in cytoskeletal reorganization and in cellular migration (Le Clainche & Carlier, 2008;Windhorst et al, 2008;Johnson & Schell, 2009), and it is likely that MI could ameliorate the fertility rate of the patients with idiopathic infertility acting both on spermatozoa cytoskeleton rearrangements and on their migratory ability.…”

Section: Discussionmentioning

confidence: 99%

Myoinositol improves sperm parameters and serum reproductive hormones in patients with idiopathic infertility: a prospective double-blind randomized placebo-controlled study

et al. 2015

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SUMMARYMale infertility is a multifactorial disorder that affects a significant percentage of couples. Its etiology and pathogenesis remain elusive in about one-third of the cases; this is referred to as idiopathic infertility. Inositols mediate the sperm processes involved into oocyte fertilization, such as penetration of the ovum cumulus oophorus, binding with the zona pellucida and the acrosome reaction. The aim of this double-blind, randomized, placebo-controlled trial was to evaluate the efficacy and safety of myoinositol (the most abundant form of inositols present in nature) treatment in men with idiopathic infertility. To accomplish this, we evaluated the effects of myoinositol on sperm parameters and reproductive hormones at baseline and after 3 months of treatment in men with idiopathic infertility. No adverse reaction was observed. Myoinositol significantly increased the percentage of acrosome-reacted spermatozoa, sperm concentration, and total count and progressive motility compared to placebo. In addition, myoinositol rebalanced serum luteinizing hormone, follicle-stimulating hormone, and inhibin B concentrations. The clinical improvement of idiopathic infertile patients should encourage myoinositol use for the treatment of this disorder, even though its detailed mechanisms at the testicular level remain still unclear.

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Deterministic Single Cell Encapsulation in Asymmetric Microenvironments to Direct Cell Polarity

et al. 2022

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Various signals in tissue microenvironments are often unevenly distributed around cells. Cellular responses to asymmetric cell‐matrix adhesion in a 3D space remain generally unclear and are to be studied at the single‐cell resolution. Here, the authors developed a droplet‐based microfluidic approach to manufacture a pure population of single cells in a microscale layer of compartmentalized 3D hydrogel matrices with a tunable spatial presentation of ligands at the subcellular level. Cells elongate with an asymmetric presentation of the integrin adhesion ligand Arg‐Gly‐Asp (RGD), while cells expand isotropically with a symmetric presentation of RGD. Membrane tension is higher on the side of single cells interacting with RGD than on the side without RGD. Finite element analysis shows that a non‐uniform isotropic cell volume expansion model is sufficient to recapitulate the experimental results. At a longer timescale, asymmetric ligand presentation commits mesenchymal stem cells to the osteogenic lineage. Cdc42 is an essential mediator of cell polarization and lineage specification in response to asymmetric cell‐matrix adhesion. This study highlights the utility of precisely controlling 3D ligand presentation around single cells to direct cell polarity for regenerative engineering and medicine.

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Neuronal IP₃3-Kinase is an F-actin–bundling Protein: Role in Dendritic Targeting and Regulation of Spine Morphology

Cited by 145 publications

References 54 publications

Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Myoinositol improves sperm parameters and serum reproductive hormones in patients with idiopathic infertility: a prospective double-blind randomized placebo-controlled study

Deterministic Single Cell Encapsulation in Asymmetric Microenvironments to Direct Cell Polarity

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Neuronal IP33-Kinase is an F-actin–bundling Protein: Role in Dendritic Targeting and Regulation of Spine Morphology

Cited by 145 publications

References 54 publications

Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Functional role of inositol‐1,4,5‐trisphosphate‐3‐kinase‐A for motility of malignant transformed cells

Myoinositol improves sperm parameters and serum reproductive hormones in patients with idiopathic infertility: a prospective double-blind randomized placebo-controlled study

Deterministic Single Cell Encapsulation in Asymmetric Microenvironments to Direct Cell Polarity

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Neuronal IP₃3-Kinase is an F-actin–bundling Protein: Role in Dendritic Targeting and Regulation of Spine Morphology