Mathilde Cadoux scite author profile

ObjectivesPolyploidy is a fascinating characteristic of liver parenchyma. Hepatocyte polyploidy depends on the DNA content of each nucleus (nuclear ploidy) and the number of nuclei per cell (cellular ploidy). Which role can be assigned to polyploidy during human hepatocellular carcinoma (HCC) development is still an open question. Here, we investigated whether a specific ploidy spectrum is associated with clinical and molecular features of HCC.DesignPloidy spectra were determined on surgically resected tissues from patients with HCC as well as healthy control tissues. To define ploidy profiles, a quantitative and qualitative in situ imaging approach was used on paraffin tissue liver sections.ResultsWe first demonstrated that polyploid hepatocytes are the major components of human liver parenchyma, polyploidy being mainly cellular (binuclear hepatocytes). Across liver lobules, polyploid hepatocytes do not exhibit a specific zonation pattern. During liver tumorigenesis, cellular ploidy is drastically reduced; binuclear polyploid hepatocytes are barely present in HCC tumours. Remarkably, nuclear ploidy is specifically amplified in HCC tumours. In fact, nuclear ploidy is amplified in HCCs harbouring a low degree of differentiation and TP53 mutations. Finally, our results demonstrated that highly polyploid tumours are associated with a poor prognosis.ConclusionsOur results underline the importance of quantification of cellular and nuclear ploidy spectra during HCC tumorigenesis.

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Cytotoxic CD8⁺T lymphocytes expressing ALS-causing SOD1 mutant selectively trigger death of spinal motoneurons

Coque

Salsac

Espinosa-Carrasco

et al. 2019

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

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SignificanceCD8+ T lymphocytes, which are typically devoted to eliminate malignant and infected cells, have been described in the central nervous system (CNS) of patients and mice with amyotrophic lateral sclerosis (ALS). However, their role in ALS pathogenesis has yet to be unraveled. Here, we show that ablation of CD8+ T cells in ALS mice increased the number of surviving motoneurons. CD8+ T cells expressing the ALS-causing superoxide dismutase-1 mutant protein recognize and selectively kill motoneurons in vitro. To exert their cytotoxic function, mutant CD8+ T cells required presentation of the antigen-MHC-I complex at the surface of the motoneurons. Analysis of T cell receptor diversity supports the evidence that self-reactive CD8+ T lymphocytes infiltrate the CNS of ALS mice to exert cytotoxic function.

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Mathilde Cadoux

Polyploidy spectrum: a new marker in HCC classification

Cytotoxic CD8⁺T lymphocytes expressing ALS-causing SOD1 mutant selectively trigger death of spinal motoneurons

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Mathilde Cadoux

Polyploidy spectrum: a new marker in HCC classification

Cytotoxic CD8+T lymphocytes expressing ALS-causing SOD1 mutant selectively trigger death of spinal motoneurons

Contact Info

Product

Resources

About

Cytotoxic CD8⁺T lymphocytes expressing ALS-causing SOD1 mutant selectively trigger death of spinal motoneurons