UVSSA is a causative gene for UV-sensitive syndrome (UV<sup>S</sup> S), which is an autosomal recessive disorder characterized by hypersensitivity to UV light and deficiency in TC-NER.
We will discuss the function of UVSSA and USP7 and how the discovery of these proteins contributes to a better understanding of the molecular mechanisms underlying the clinical differences between UVSS and the more severe CS.
The Cockayne syndrome group B (CSB) gene is one gene responsible for CS and also causes UV sensitive syndrome (UV<sup>S</sup>S), a disorder that causes mild symptoms.
We also show by microarray analysis that expression of the fusion protein alone in CSB-null UV-sensitive syndrome (UVSS) cells induces an interferon-like response that resembles both the innate antiviral response and the prolonged interferon response normally maintained by unphosphorylated STAT1 (U-STAT1); moreover, as might be expected based on conservation of the fusion protein, this potentially cytotoxic interferon-like response is largely reversed by coexpression of functional CSB protein.
On the other hand, no mutation in the CSB cDNA and a normal amount of CSB protein was detected in Kps3, a UVsS cell line obtained from an unrelated patient, indicating genetic heterogeneity in UVsS.
On the other hand, no mutation in the CSB cDNA and a normal amount of CSB protein was detected in Kps3, a UVsS cell line obtained from an unrelated patient, indicating genetic heterogeneity in UVsS.
We report the identification of a UV(S)S patient (UV(S)S1VI) with a novel mutation in the CSA gene (p.trp361cys) that confers hypersensitivity to UV light, but not to inducers of oxidative damage that are notably cytotoxic in cells from CS patients.
We report the identification of a UV(S)S patient (UV(S)S1VI) with a novel mutation in the CSA gene (p.trp361cys) that confers hypersensitivity to UV light, but not to inducers of oxidative damage that are notably cytotoxic in cells from CS patients.