Purpose: CCAAT/enhancer-binding homologous protein (CHOP), a transcription factor that has been implicated in differentiation, apoptosis, and autophagy, is greatly elevated in lenses with cataracts due to mutations of several different lens proteins. To test the possible role of CHOP in the cataractous lens, we studied the effect of knocking out Chop in mice that were homozygous for the Cx50D47A mutation of the lens fiber gap junction protein connexin50 (Cx50).
Methods: Mouse lenses were examined by dark-field microscopy. Lens equatorial diameters and intensities of the opacities were quantified using ImageJ. Transcript levels were assessed by real-time quantitative PCR. Protein levels were determined by immunoblotting.
Results: Homozygous Chop knockout lenses were transparent. Deletion of Chop in Cx50D47A mice did not improve lens transparency and had no effect on lens size. In Chop null-Cx50D47A lenses, the protein kinase R-like endoplasmic reticulum kinase (PERK)-dependent pathway was activated similarly to Cx50D47A lenses. In Cx50D47A mice, Chop deletion did not improve connexin levels or lens fiber cell differentiation, and it did not decrease the levels of Trib3 or Irs2 transcripts to wild-type values. However, homozygous Chop knockout significantly diminished the increased levels of Cebpb transcripts of Cx50D47A lenses.
Conclusions: The results show that CHOP is not required for lens transparency. They also suggest that CHOP is not the critical etiological factor for the cataracts observed in homozygous Cx50D47A lenses, further supporting a major role for connexins in the disease.
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