Liron Dvir scite author profile

We present here the first evidence of mechanical penetration by a metastatic cancer cell. During metastasis, the invasive cancer-cell penetrates tissue and extracellular matrix, changes shape and applies force. These applied forces, in turn, depend on substrate stiffness and degradability. The initial stage of metastatic penetration comprises substrate indentation, which, however, has not yet been studied. Hence, we evaluate the evolution of indentation, focusing on differences relating to the metastatic potential (MP) of the cells and substrate stiffness. We found that metastatic cells attain a mushroom-like morphology and then, over several hours, repeatedly indent the substrate in a manner suggestive of a special role for the nucleus. Cells with higher MP have previously been shown to be softer internally and externally than those with lower MP yet, paradoxically, applied stronger forces. Cells of higher MP develop stronger forces on gels stiff enough to provide grip handles yet soft enough to indent, whereas benign cells did not indent substrates at all. These findings provide insight into the central role of physical forces in the initial stages of metastatic penetration and reveal new targets for treatment.

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Autosomal-Recessive Early-Onset Retinitis Pigmentosa Caused by a Mutation in PDE6G, the Gene Encoding the Gamma Subunit of Rod cGMP Phosphodiesterase

Dvir

Srour

Abu-Ras

et al. 2010

The American Journal of Human Genetics

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Retinitis pigmentosa (RP) is the most common form of hereditary retinal degeneration, with a worldwide prevalence of 1 in 4000. Over 30 genes and loci have been implicated in nonsyndromic autosomal-recessive (ar) RP. Genome-wide homozygosity mapping was conducted in two sibships from an extended consanguineous Muslim Arab Israeli family segregating ar severe early-onset RP. A shared homozygous region on chromosome 17q25.3 was identified in both sibships, with an overlap of 4.7 Mb. One of the genes located in this interval is PDE6G, encoding for the inhibitory gamma subunit of rod photoreceptor cyclic GMP-phosphodiesterase. Mutations in the genes encoding for the catalytic subunits of this holoenzyme, PDE6A and PDE6B, cause arRP. Sequencing of all coding exons, including exon-intron boundaries, revealed a homozygous single base change (c.187+1G>T) located in the conserved intron 3 donor splice site of PDE6G. This mutation cosegregated with the disease in the extended family. We used an in vitro splicing assay to demonstrate that this mutation leads to incorrect splicing. Affected individuals had markedly constricted visual fields. Both scotopic and photopic electroretinograms were severely reduced or completely extinct. Funduscopy showed typical bone spicule-type pigment deposits spread mainly at the midperiphery, as well as pallor of the optic disk. Macular involvement was indicated by the lack of foveal reflex and typical cystoid macular edema, proved by optical coherence tomography. These findings demonstrate the positive role of the gamma subunit in maintaining phosphodiesterase activity and confirm the contribution of PDE6G to the etiology of RP in humans.

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Quantitative measures to reveal coordinated cytoskeleton-nucleus reorganization duringin vitroinvasion of cancer cells

et al. 2015

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Metastasis formation is a major cause of mortality in cancer patients and includes tumor cell relocation to distant organs. A metastatic cell invades through other cells and extracellular matrix by biochemical attachment and mechanical force application. Force is used to move on or through a 2-or 3-dimensional (3D) environment, respectively, or to penetrate a 2D substrate. We have previously shown that even when a gel substrate is impenetrable, metastatic breast cancer cells can still indent it by applying force. Cells typically apply force through the acto-myosin network, which is mechanically connected to the nucleus. We develop a 3D image-analysis to reveal relative locations of the cell elements, and show that as cells apply force to the gel, a coordinated process occurs that involves cytoskeletal remodeling and repositioning of the nucleus. Our approach shows that the actin and microtubules reorganize in the cell, bringing the actin to the leading edge of the cell. In parallel, the nucleus is transported behind the actin, likely by the cytoskeleton, into the indentation dimple formed in the gel. The nucleus volume below the gel surface correlates with indentation depth, when metastatic breast cancer cells indent gels deeply. However, the nucleus always remains above the gel in benign cells, even when small indentations are observed. Determining mechanical processes during metastatic cell invasion can reveal how cells disseminate in the body and can uncover targets for diagnosis and treatment.

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Mechanical Interaction of Metastatic Cancer Cells with a Soft Gel

et al. 2015

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Liron Dvir

Metastatic cancer cells tenaciously indent impenetrable, soft substrates

Autosomal-Recessive Early-Onset Retinitis Pigmentosa Caused by a Mutation in PDE6G, the Gene Encoding the Gamma Subunit of Rod cGMP Phosphodiesterase

Quantitative measures to reveal coordinated cytoskeleton-nucleus reorganization duringin vitroinvasion of cancer cells

Mechanical Interaction of Metastatic Cancer Cells with a Soft Gel

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