Paola Criqui‐Filipe scite author profile

Friedreich ataxia (FRDA), the most common autosomal recessive ataxia, is characterized by degeneration of the large sensory neurons and spinocerebellar tracts, cardiomyopathy and increased incidence in diabetes. FRDA is caused by severely reduced levels of frataxin, a mitochondrial protein of unknown function. Yeast knockout models as well as histological and biochemical data from heart biopsies or autopsies of FRDA patients have shown that frataxin defects cause a specific iron-sulfur protein deficiency and intramitochondrial iron accumulation. We have recently shown that complete absence of frataxin in the mouse leads to early embryonic lethality, demonstrating an important role for frataxin during mouse development. Through a conditional gene-targeting approach, we have generated in parallel a striated muscle frataxin-deficient line and a neuron/cardiac muscle frataxin-deficient line, which together reproduce important progressive pathophysiological and biochemical features of the human disease: cardiac hypertrophy without skeletal muscle involvement, large sensory neuron dysfunction without alteration of the small sensory and motor neurons, and deficient activities of complexes I-III of the respiratory chain and of the aconitases. Our models demonstrate time-dependent intramitochondrial iron accumulation in a frataxin-deficient mammal, which occurs after onset of the pathology and after inactivation of the Fe-S-dependent enzymes. These mutant mice represent the first mammalian models to evaluate treatment strategies for the human disease.

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Net, a negative Ras-switchable TCF, contains a second inhibition domain, the CID, that mediates repression through interactions with CtBP and de-acetylation

Criqui‐Filipe

et al. 1999

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Signalling cascades are integrated at the transcriptional level by the interplay between factors such as the ternary complex factors (TCFs) that interact with serum response factor (SRF) and the serum response element (SRE) of the fos promoter. Net is a negative TCF that is switched to a positive regulator by the Ras signal. To understand the mechanisms of repression by Net, we used a yeast two-hybrid screen to identify factors that interact with its inhibitory domain. We isolated mCtBP1, the murine homologue of huCtBP1, a factor implicated in negative regulation of transformation by E1A plus Ras. We show that mCtBP1 interacts strongly with Net both in vitro and in vivo. The CtBP interaction domain of Net, the CID, mediates repression independently of the previously identified negative element, the NID. The CID inhibits by recruiting the co-repressor mCtBP1. The CID and mCtBP1 need to use de-acetylase activity for repression, whereas the NID apparently represses by other mechanisms. Finally, we provide evidence that CtBP and de-acetylation repress the c-fos SRE in low serum when it is inactive, but not in high serum when it is active. These results provide insights into the cross-talk between pathways that inhibit and stimulate transformation at the level of Net, a regulator of gene expression.

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Paola Criqui‐Filipe

Mouse models for Friedreich ataxia exhibit cardiomyopathy, sensory nerve defect and Fe-S enzyme deficiency followed by intramitochondrial iron deposits

Net, a negative Ras-switchable TCF, contains a second inhibition domain, the CID, that mediates repression through interactions with CtBP and de-acetylation

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