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Query: UMLS:C0043346 (
xeroderma pigmentosum
)
2,924
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A proteinous factor was purified from calf thymus and HeLa cells, which specifically corrects the excision repair defect of
xeroderma pigmentosum
complementation group A (XP-A) cells. Recovery of UV-induced unscheduled DNA synthesis after microinjection of XP-A cells was used as a quantitative assay for the correcting activity of protein preparations. XP-A correcting protein appears to be very stable as it withstands heating to 100 degrees C and treatment with SDS or 6 M
urea
. A molecular weight of 40-45 kD was found both under native (gel filtration) and denaturing (SDS-PAGE) conditions. Calf XP-A protein binds to single-stranded DNA more strongly than to double-stranded DNA, but shows no clear preference for UV-irradiated DNA. Polyclonal antibodies raised against human recombinant XP-A protein, which strongly inhibit UV-induced unscheduled DNA synthesis of normal human cells, completely abolished XP-A correcting activity when mixed with calf thymus preparations. This indicates a close relationship between human gene product and the calf protein. In the final preparation two main protein bands were present. Only one band at approx. 41 kD showed both DNA binding activity in Southwestern blots and immune reaction with human XP-A antibody, suggesting that this is the active calf XP-A correcting factor.
...
PMID:Xeroderma pigmentosum group A correcting protein from calf thymus. 138 Jun 54
A nuclear protein that recognizes UV-damaged DNA was detected from HeLa cells using DNA-binding assay. Treatment of cells with Ca2+ ionophore (A23187) caused a dramatic inhibition of the damage-recognition activity. In contrast, in vitro treatment of nuclear extracts with agents that affect protein conformation (such as
urea
, NP40 and Ca2+) did not significantly affect on the damage-recognition activity. The Ca(2+)-mediated inhibition of UV damage recognition was reconstituted by the addition of the cytosolic extracts, suggesting that the Ca2+ effect does not directly act on the UV damage-recognition protein. The expression of the detected nuclear protein was increased in UV-resistant HeLa cells. In contrast, the level of this protein was dramatically reduced in UV-sensitive
xeroderma pigmentosum
group A cells. In addition, UV damage-recognition protein is resistant to RNase, and is independent of the previously identified proteins that bind cisplatin-DNA adduct. These findings implied that the recognition of UV-DNA adduct is modulated by the intracellular level of Ca2+.
...
PMID:Ca(2+)-mediated inhibition of a nuclear protein that recognizes UV-damaged DNA and is constitutively overexpressed in resistant human cells: DNA-binding assay. 175 77
The ultraviolet light (UV)-responsive element (
URE
) is an octamer sequence, TGACAACA, that shares homology with cyclic AMP-responsive element and activator protein 1 target sequences. Because
URE
-binding proteins have been shown to play a role in cellular response to DNA damage, we determined their expression and DNA-binding activities in repair-deficient cells. Of the complementation groups tested, only
xeroderma pigmentosum
(XP)-C cells induced expression of c-jun after UV irradiation; this correlated with XP-C binding to the
URE
and resembled the pattern observed with normal human fibroblasts. In other cases either a decrease (XP-A) or no change (XP-D) in
URE
-binding activities was noticed, which may be associated with decreased c-fos and poor c-jun expression after UV irradiation. That XP-C cells were the only complementation group exhibiting
URE
-binding activities similar to those of repair-proficient cells points to the possible correlation between proper repair of transcriptionally active genes and the expression and activities of proteins implicated in the cellular response to UV irradiation.
...
PMID:Ultraviolet light-responsive element (TGACAACA)-binding proteins in cells of xeroderma pigmentosum patients. 757 98
The INK4a-
ARF
locus, localized on 9p21, encodes two tumor suppressor proteins, p16INK4a and p14ARF, acting respectively through the CDK4-pRb and the p53 pathways. Familial melanoma (comprising between 8 and 12% of all melanoma cases) is a genodermatosis transmitted as an autosomal dominant trait, often associated with clinically atypical moles (AN). Germline mutations of p16INK4a are found in up to 20-30% of melanoma prone families. Mutated families often contain more than three family members affected and/or comprise at least one relative with multiple melanomas. Most of these mutations have been shown to affect p16INK4a protein function (i.e. CDK4 binding or pRB phosphorylation). Germline mutations of p16INK4a are also found in a lesser extend in sporadic multiple melanoma and in familial pancreatic cancer. The INK4a-
ARF
locus plays also an important role in skin carcinogenesis. P16INK4a UV induced mutations (CC:GG > TT:AA tandem transition or C:G > T:A transition at dipyrimidic site) are found in 12% of sporadic skin carcinomas, mainly in epidermoid tumors, and seem to occur independently of p53 mutations.
Xeroderma pigmentosum
(XP) is characterized by an inheritable DNA repair defect (involving the nucleotid excision repair (NER) system) predisposing to skin carcinomas. In skin tumors from (XP) patients, p16INK4a UV induced mutations occur more frequently, are often multiple, and significantly associated with the presence of p53 mutations. Such data, which could be related to the XP genetic instability and indicates a possible cooperative effect of inactivation of these pathways in the tumoral process of XP skin tumors.
...
PMID:[The INK4a-ARF locus: role in the genetic predisposition to familial melanoma and in skin carcinogenesis]. 1174 99
Xeroderma pigmentosum
is an inheritable autosomal recessive DNA repair deficient syndrome characterized by a high predisposition to skin cancers. An elevated proportion of tumors from
xeroderma pigmentosum
patients harbor ultraviolet-induced mutations (CC:GG > TT:AA tandem transitions) of the p53 and/or the INK4a-
ARF
genes. Here, we report the clinical and molecular features of a 12 y old
xeroderma pigmentosum
patient who, in addition to severe cutaneous clinical symptoms, also had three unusual tumors, a mediastinal lymphoblastic lymphoma, an atypical fibroxanthoma, and an epithelioid hemangioma. Single strand conformation polymorphism and sequencing analysis of the p53 and INK4a-
ARF
genes were carried out in DNA from normal skin and different tumors (four actinic keratosis, two microinvasive squamous cell carcinomas, one basal cell carcinoma, and one atypical fibroxanthoma) from the patient. After characterization of the
xeroderma pigmentosum
C complementation group, we found unexpectedly that this patient also carried a germline mutation of the INK4a-
ARF
locus affecting the p16INK4A reading frame. Three different somatic mutations that all harbor the signature of ultraviolet light (two of p16INK4A and one of p53) were also detected in the basal cell carcinoma. We hypothesize that the germline mutation of p16INK4A, in association with the nucleotide excision repair defect, could explain the patient's unusual phenotype. Furthermore, this study confirms that concomitant somatic mutations of INK4a-
ARF
and p53 occur in some
xeroderma pigmentosum
associated tumors, and seem to accumulate during tumor progression rather than the initiation step.
...
PMID:Germline and somatic mutations of the INK4a-ARF gene in a xeroderma pigmentosum group C patient. 1248 39
The UVB component of the solar spectrum induces DNA lesions that, in the absence of error-free DNA repair, may give rise during DNA replication to mutations in caretaker and gatekeeper genes. The DNA repair genes are the best candidates for caretaker genes as exemplified by the human hereditary
xeroderma pigmentosum
(XP) syndrome. Cultured XP cells are hypermutable after UVB irradiation. This increased mutation frequency is also found in gatekeeper genes, which govern signalling pathways implicated in the control of cellular proliferation, differentiation and survival of human epidermal keratinocytes. We describe and discuss the role of mutated gatekeeper genes in five specific signalling pathways which have been implicated in skin carcinogenesis. The pathways we focus on in this review are: (i) P16(INK4A)-CDK4/6-RB; (ii) P14(
ARF
)-HDM2-P53; (iii) Sonic hedgehog (SHH)/GLI; (iv) WNT/beta-catenin; and (v) Bone Morphogenetic Protein (BMP)/SMAD. 70-80% of XP skin cancers exhibit one or several mutations in the P53, PTCH-1, SMO or CDKN2A genes, the type and frequency of mutated genes being different between squamous cell (SCCs) and basal cell carcinomas (BCCs). In XP cancers, the typically UVB-induced CC to TT tandem transitions represent approximately 60% of total mutations compared to 10-15% in skin tumours from DNA repair-proficient patients. Acquired activation of the pathways described herein can alter proliferation and differentiation of keratinocytes, allowing a damaged cell to replicate and give rise to mutated daughter cells, then eventually to the development of the carcinogenic process following clonal selection.
...
PMID:UVB-induced mutations in human key gatekeeper genes governing signalling pathways and consequences for skin tumourigenesis. 1452 Dec 17
