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Mouse developmental defects, but not paraganglioma tumorigenesis, upon conditional Complex II loss in early Sox10 cells. | LitMetric

AI Article Synopsis

  • Loss of heterozygosity for defective alleles of the SDH enzyme can lead to paragangliomas, a type of tumor originating in neuroendocrine cells in humans.
  • Researchers created mouse models with conditional loss of the SDHC subunit in early development, hypothesizing it would induce paraganglioma in chromaffin cells.
  • Instead of tumors, mice showed developmental defects like gait anomalies and fur discoloration, indicating neural crest cell dysfunction without tumor formation, suggesting differences between human and mouse responses to SDH loss.

Article Abstract

In humans, loss of heterozygosity for defective alleles of any of the four subunits of mitochondrial tricarboxylic acid cycle enzyme succinate dehydrogenase (SDH, also Complex II of the electron transport chain) can lead to paraganglioma tumors in neuroendocrine cells. With the goal of developing mouse models of this rare disorder, we have developed various SDH conditional loss strategies. Based on recent lineage tracing studies, we hypothesized that conditional SDHC loss in early embryogenesis during migration of primordial neural crest cells that form the susceptible chromaffin cells of the adrenal medulla might induce paraganglioma. We triggered low levels of detectable SDHC loss in Sox10 cells at E11.5 of mouse development. We report that, rather than developing adrenal medulla paraganglioma (pheochromocytoma), offspring survived with evidence of neural crest cell dysfunction. Phenotypes included mild lower extremity gait anomalies suggestive of neural tube closure defects and patches of unpigmented fur consistent with neural crest-derived melanocyte dysfunction. These defects were not observed in mice lacking knockout. Our results add to existing data suggesting that, unlike humans, even early embryonic (Sox10-driven) SDHx loss is inadequate to trigger paraganglioma in mice of the genetic backgrounds that have been investigated. Instead, low levels of tricarboxylic acid cycle-deficient neural crest cells cause mild developmental defects in hind limb and melanocyte function. This new model may be of interest for studies of metabolism during early neural crest cell development.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11467736PMC
http://dx.doi.org/10.1096/fba.2024-00056DOI Listing

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