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ABSTRACT: Telomere integrity is critical for telomere function and genomic stability. We previously demonstrated that non-erythroid α-spectrin (αIISp) is present in mammalian cell nuclei where it is important in repair of DNA interstrand cross-links (ICLs) and chromosome stability. We now demonstrate that αIISp is also important for telomere maintenance after ICL damage. It localizes to telomeres in S phase after ICL damage where it has enhanced association with TRF1 and TRF2 and is required for recruitment of the ICL repair protein, XPF, to damage-induced foci at telomeres. In telomerase-positive normal cells depleted of αIISp by siRNA or in Fanconi anemia, complementation group A (FA-A) cells, where αIISp levels are 35-40% of normal, ICL damage results in failure of XPF to localize to telomeres, markedly increased telomere dysfunction-induced foci, followed by catastrophic loss of telomeres. Restoration of αIISp levels to normal in FA-A cells corrects these deficiencies. Our studies demonstrate that αIISp is critical for repair of DNA ICLs at telomeres, likely by facilitating the recruitment of repair proteins similar, but not identical, to its proposed role in repair of DNA ICLs in genomic DNA and that this function in turn is critical for telomere maintenance after DNA ICL damage.
Nucleic Acids Research 04/2013; · 8.03 Impact Factor
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ABSTRACT: There is evidence that Fanconi anemia (FA) proteins play an important role in the repair of DNA interstrand cross-links (ICLs), but the precise mechanism by which this occurs is not clear. One of the critical steps in the ICL repair process involves unhooking of the cross-link from DNA by incisions on one strand on either side of the ICL and its subsequent removal. The ERCC1-XPF endonuclease is involved in this unhooking step and in the removal of the cross-link. We have previously shown that several of the FA proteins are needed to produce incisions created by ERCC1-XPF at sites of ICLs. To more clearly establish a link between FA proteins and the incision step(s) mediated by ERCC1-XPF, we undertook yeast two-hybrid analysis to determine whether FANCA, FANCC, FANCF, and FANCG directly interact with ERCC1 and XPF and, if so, to determine the sites of interaction. One of these FA proteins, FANCG, was found to have a strong affinity for ERCC1 and a moderate affinity for XPF. FANCG has been shown to contain seven tetratricopeptide repeat (TPR) motifs, which are motifs that mediate protein-protein interactions. Mapping the sites of interaction of FANCG with ERCC1, using site-directed mutagenesis, demonstrated that TPRs 1, 3, 5, and 6 are needed for binding of FANCG to ERCC1. ERCC1, in turn, was shown to interact with FANCG via its central domain, which is different from the region of ERCC1 that binds to XPF. This binding between FANCG and the ERCC1-XPF endonuclease, combined with our previous studies which show that FANCG is involved in the incision step mediated by ERCC1-XPF, establishes a link between an FA protein and the critical unhooking step of the ICL repair process.
Biochemistry 07/2010; 49(26):5560-9. · 3.42 Impact Factor
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ABSTRACT: We have previously shown that there is a deficiency in the structural protein, nonerythroid alpha spectrin (alphaIISp), in cells from patients with Fanconi anemia (FA). These studies indicate that this deficiency is due to the reduced stability of alphaIISp and correlates with a decreased level of repair of DNA interstrand cross-links and chromosomal instability in FA cells. An important factor in the stability of alphaIISp is its susceptibility to cleavage by the protease, mu-calpain. We hypothesized that an increased level of mu-calpain cleavage of alphaIISp in FA cells leads to an increased level of breakdown of alphaIISp and that knocking down expression of mu-calpain in FA cells should restore levels of alphaIISp and correct a number of the phenotypic defects observed. The results showed that there is increased mu-calpain activity in FA-A, FA-C, FA-D2, FA-F, and FA-G cells that could account for the deficiency in alphaIISp in these FA cells. Protein interaction studies indicated that FANCA and FANCG bind directly to mu-calpain. We hypothesize that this binding may lead to inhibition of mu-calpain activity in normal cells. Knocking down mu-calpain by siRNA in FA-A cells restored levels of alphaIISp to normal and reversed a number of the cellular deficiencies in these cells. It corrected the DNA repair defect and the chromosomal instability observed after exposure to a DNA interstrand cross-linking agent. These studies indicate that FA proteins may play an important role in maintaining the stability of alphaIISp in the cell by regulating its cleavage by mu-calpain. Thus, by reducing the level of breakdown of alphaIISp in FA cells, we may be able to reverse a number of the cellular deficiencies observed in this disorder.
Biochemistry 07/2010; 49(26):5570-81. · 3.42 Impact Factor
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ABSTRACT: Although the term, "trichothiodystrophy" (TTD) refers to the hair anomalies in this group of patients, this is a heterogeneous, multisystem disease in which any or every organ in the body may be affected. Neuroectodermal derived tissues are particularly likely to be involved. This term was introduced by Price et alin 1980 to designate patients with sulfur-deficient brittle hair, which they recognized as a marker for this complex disease and designated it as a "neuroectodermal symptom complex". Patients with TTD have brittle hair and nails (associated with reduced content ofcysteine-rich matrix proteins), ichthyotic skin and physical and mental growth retardation. Ichthyosis is usually apparent at birth but much less so after the first few weeks of life. Other frequently associated features include ocular cataracts, infections and maternal complications related to pregnancy. Atrophy of subcutaneous fat may also be present. TTD occurs in a pattern of inheritance consistent with an autosomal recessive condition. The disease is extremely heterogeneous in severity and extent, with some patients showing no neurological deficiency. Others show severe, multisystem disease. Many patients die at a young age, most commonly due to infectious disease. TTD is part of a more broadly defined group of diseases identified as IBIDS (ichthyosis, brittle hair, impaired intelligence, decreased fertility and short stature). Photosensitive cases are also identified as PIBIDS (photosensitivity with IBIDS). Cases without manifest ichthyosis are also identified as PBIDS. These syndromes defy rigorous definition because of clinical variation between patients. The original two cases were described by Tay in oriental siblings, whose parents were first cousins; thus the disease is also known as Tay syndrome. The hairs in patients with TTD have a distinctive, diagnostically useful appearance on polarized light microscopy consisting of alternating light and dark bands known as the "tiger tail" anomaly. Diagnosis may be confirmed by sulfur content analysis ofhair shafts, which shows decreased sulfur and cysteine content. Approximately half of patients with TTD have photosensitivity, which correlates with a nudeotide excision repair (NER) defect. These patients are designated as having trichothiodystrophy-photosensitive (TTDP). Non-photosensitivepatients are designated as having trichothiodystrophy-nonphotosensitive (TTDN). Skin cancer is very rare in sun-sensitive TTD.
Advances in experimental medicine and biology 01/2010; 685:106-10. · 1.09 Impact Factor
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ABSTRACT: Nonerythroid alpha-spectrin (alphaIISp) is a structural protein involved in repair of DNA interstrand cross-links and is deficient in cells from patients with Fanconi anemia (FA), which are defective in ability to repair cross-links. In order to further demonstrate the importance of the role that alphaIISp plays in normal human cells and in the repair defect in FA, alphaIISp was knocked down in normal cells using siRNA. Depletion of alphaIISp in normal cells by siRNA resulted in chromosomal instability and cellular hypersensitivity to DNA interstrand cross-linking agents. An increased number of chromosomal aberrations were observed and, following treatment with a DNA interstrand cross-linking agent, mitomycin C, cells showed decreased cell growth and survival and decreased formation of damage-induced alphaIISp and XPF nuclear foci. Thus depletion of alphaIISp in normal cells leads to a number of defects observed in FA cells, such as chromosome instability and a deficiency in cross-link repair.
Biochemical and Biophysical Research Communications 03/2009; 381(2):288-93. · 2.48 Impact Factor
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ABSTRACT: The structural protein nonerythroid alpha spectrin (alphaIISp) plays a role in the repair of DNA interstrand cross-links and is deficient in cells from patients with Fanconi anemia (FA), in which there is a defect in ability to repair such cross-links. We have proposed a model in which alphaIISp, whose stability is dependent on FA proteins, acts as a scaffold to aid in recruitment of repair proteins to sites of damage. In order to get a clearer understanding of the proposed role of FA proteins in maintaining stability of alphaIISp, yeast two-hybrid analysis was carried out to determine whether FA proteins directly interact with alphaIISp and, if so, to map the sites of interaction. Four overlapping regions of alphaIISp were constructed. FANCG interacted with one of these regions and specifically with the SH3 domain in this region of alphaIISp. The site of interaction in FANCG was mapped to a motif that binds to SH3 domains and contains a consensus sequence with preference for the SH3 domain of alphaIISp. This site of interaction was confirmed using site-directed mutagenesis. Two FA proteins that did not contain motifs that bind to SH3 domains, FANCC and FANCF, did not interact with the SH3 domain of alphaIISp. These results demonstrate that one of the FA proteins, FANCG, contains a motif that interacts directly with the SH3 domain of alphaIISp. We propose that this binding of FANCG to alphaIISp may be important for the stability of alphaIISp in cells and the role alphaIISp plays in the DNA repair process.
Biochemistry 01/2009; 48(2):254-63. · 3.42 Impact Factor
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Advances in experimental medicine and biology 02/2008; 637:128-37. · 1.09 Impact Factor
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ABSTRACT: Repair of DNA interstrand cross-links is a multistep process, critical to which is production of incisions at the site of the lesion resulting in the unhooking of the cross-link from DNA. We have previously shown that XPF is involved in production of incisions at the site of a psoralen interstrand cross-link and that in Fanconi anemia, complementation group A (FA-A) cells, there is a deficiency in these incisions. We now demonstrate that in FA complementation group B, C, D2, F, and G cells there is also a deficiency in production of these incisions. Involvement of FA proteins in this process is demonstrated by the ability of FA cells, corrected with the appropriate FANC cDNAs, to produce these incisions and by inhibition of these incisions by antibodies against these proteins. This incision deficiency correlates with reduced levels of DNA repair synthesis in these cells and is not due to reduced levels of XPF. FA proteins could be influencing this incision process by interacting either with proteins involved in the unhooking step or with damaged DNA, acting as a damage sensor. The results also demonstrate that FA cells are undergoing apoptosis by 12 h after interstrand cross-link damage. It is thus proposed that the single-strand breaks known to be created in DNA during apoptosis could mask the deficiency in ability of FA cells to incise cross-linked DNA and could account for the reported discrepancy as to whether FA cells are deficient in the incision step of the repair process.
Biochemistry 01/2008; 46(50):14359-68. · 3.42 Impact Factor
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ABSTRACT: XPA is a protein essential for nucleotide excision repair (NER) where it is thought to function in damage recognition/verification. We have proposed an additional role, that of a processivity factor, conferring a processive mechanism of action on XPF and XPG, the endonucleases, involved in NER. The present study was undertaken to examine the domain(s) in the XPA gene that are important for the ability of the XPA protein to function as a processivity factor. Using site-directed mutagenesis, mutations were created in several of the exons of XPA and mutant XPA proteins produced. The results showed that the DNA binding domain of XPA is critical for its ability to act as a processivity factor. Mutations in both the zinc finger motif and the large basic cleft in this domain eliminated the ability of XPA to confer a processive mechanism of action on the endonucleases involved in NER.
Biochemical and Biophysical Research Communications 05/2007; 356(1):219-25. · 2.48 Impact Factor
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ABSTRACT: Nonerythroid alpha-spectrin (alphaSpIISigma( *)) is a structural protein that has been identified in the nucleus of mammalian cells and shown to be involved in DNA repair. It is also deficient in cells from the clinically diverse genetic disorder Fanconi anemia (FA). In order to get a clearer understanding of the role of alphaSpIISigma( *) in DNA repair, and whether it may have other important functions in the nucleus, studies were undertaken to identify specific alphaSpIISigma( *) protein binding partners in the nucleus. The results demonstrate that multiple proteins co-immunoprecipitate with alphaSpIISigma( *) from nuclear extracts from normal human lymphoblastoid and HeLa cells. These can be grouped into five categories: structural proteins, proteins involved in DNA repair, chromatin remodeling proteins, FA proteins, and transcription and RNA processing factors. These studies indicate that alphaSpIISigma( *) may play a role in a number of diverse and important processes in the nucleus and that a deficiency in this protein, as occurs in FA, could affect a number of critical cellular pathways.
Cell Biology International 12/2006; 30(11):866-78. · 1.48 Impact Factor
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ABSTRACT: Fanconi anemia is a genetic disorder characterized by hypersensitivity to DNA interstrand cross-linking agents and a defect in the ability to repair this type of damage. This deficiency correlates with reduced levels of alphaII spectrin, a structural protein involved in the repair of DNA interstrand cross-links. The present study addresses the question of whether the reduced levels of alphaII spectrin in FA-A, FA-C, and FA-G cells are due to reduced expression of this protein and/or due to differences in the three regions of alternate splicing of alphaII spectrin mRNA. Relative quantitative RT-PCR showed that levels of alphaII spectrin mRNA in the three FA cell lines were similar to normal as were the sites of alternative mRNA splicing. These results indicate that decreased levels of alphaII spectrin in these FA cell lines are not due to reduced expression of alphaII spectrin mRNA or due to differences in regions of alternate splicing of these transcripts, but rather appear to be related to reduced stability of alphaII spectrin in these cell lines.
Biochemical and Biophysical Research Communications 09/2003; 307(3):510-5. · 2.48 Impact Factor
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ABSTRACT: The events responsible for repair of DNA interstrand cross-links in mammalian cells, the proteins involved and their interactions with each other are poorly understood. The present study demonstrates that the structural protein nonerythroid alpha spectrin (alphaSpIISigma*), present in normal human cell nuclei, plays an important role in repair of DNA interstrand cross-links. These results show that alphaSpIISigma* relocalizes to nuclear foci after damage of normal human cells with the DNA interstrand cross-linking agent 8-methoxypsoralen plus ultraviolet A (UVA) light and that FANCA and the known DNA repair protein XPF localize to the same nuclear foci. That alphaSpIISigma* is essential for this re-localization is demonstrated by the finding that in cells from patients with Fanconi anemia complementation group A (FA-A), which have decreased ability to repair DNA interstrand cross-links and decreased levels of alphaSpIISigma*, there is a significant reduction in formation of damage-induced XPF as well as alphaSpIISigma* nuclear foci, even though levels of XPF are normal in these cells. In corrected FA-A cells, in which levels of alphaSpIISigma* are restored to normal, numbers of damage-induced nuclear foci are also returned to normal. Co-immunoprecipitation studies show that alphaSpIISigma*, FANCA and XPF co-immunoprecipitate with each other from normal human nuclear proteins. These results demonstrate that alphaSpIISigma*, FANCA and XPF interact with each other in the nucleus and indicate that there is a close functional relationship between these proteins. These studies suggest that an important role for alphaSpIISigma* in the nucleus is to act as a scaffold, aiding in recruitment and alignment of repair proteins at sites of damage.
Journal of Cell Science 04/2003; 116(Pt 5):823-35. · 6.11 Impact Factor
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ABSTRACT: XPF forms a heterodimeric complex with ERCC1 and is required for the repair of DNA interstrand cross-links. In association with ERCC1, it is involved in production of the 5' incision at the site of a psoralen interstrand cross-link as well as the 3' incision. The present study was carried out to determine the functional domains of XPF that are important in the production of the 5' and 3' incisions that occur at a site of a psoralen interstrand cross-link. Monoclonal antibodies (mAbs) were utilized that had been generated against polypeptide fragments of XPF and affinity-mapped to specific regions of XPF. These mAbs were examined for their ability to differentially inhibit production of dual incisions in DNA by normal human chromatin-associated protein extracts that contain XPF and ERCC1. These studies show that two regions of XPF, one N-terminal region from amino acids 12-166 and one C-terminal region from amino acids 702-854, are the most important in the production of the 5' incision. The same N-terminal region and the C-terminal region from amino acids 702-916 are also involved in the 3' incision, though to a much lesser extent. Since this C-terminal region corresponds to the proposed site of interaction of ERCC1 with XPF, these results suggest that binding of ERCC1 to XPF is critical for its ability to produce the 5' and 3' incisions at the site of an interstrand cross-link, possibly through activation or regulation of the endonucleolytic activity of the N-terminal domain of XPF.
Biochemistry 02/2002; 41(3):890-6. · 3.42 Impact Factor
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ABSTRACT: Two human lymphoblastoid cell lines, GM 1989, from a normal individual, and GM 2345, from a patient with xeroderma pigmentosum,
complemetation group A, were selected for comparative biochemical studies because they both grow rapidly and at vitually identical
rates in sealed flasks in RPMI 1640 medium buffered to physiological pH with HEPES buffer, supplemented with 12% heat-inactivated
fetal bovine serum. Although the two cell lines showed no difference in growth parameters assayed by standard methods, further
studies showed that the GM 2345 cell line was markedly more sensitive to diminution of the serum concentration of the culture
medium than was the normal cell line. These results indicate that lymphoblastoid cell lines, particularly those from individuals
with certain genetic or metabolic diseases, may be growing under marginal or limiting circumstances, different from those
of control cell lines, which are not detected by standard techniques used to monitor mammalian cell cultures.
In Vitro Cellular & Developmental Biology - Plant 07/1983; 19(8):621-624. · 1.50 Impact Factor
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ABSTRACT: DNA endonuclease activities from nuclear proteins of normal human and xeroderma pigmentosum (XP), complementation group A, lymphoblastoid and Cloudman mouse melanoma cells were examined against partially apurinic/apyrimidinic (AP) DNA. Non-histone chromatin-associated and nucleoplasmic proteins, obtained from isolated nuclei, were subfractionated by isoelectric focusing and assayed for DNA endonuclease activity against linear, calf thymus DNA. All of the nine chromatin-associated and three of the nucleoplasmic fractions, which lacked DNA exonuclease activity, were tested for DNA endonuclease activity against both native and partially AP, circular, duplex, supercoiled PM2 DNA. In all three cell lines, four chromatin-associated, but none of the nucleoplasmic fractions, showed increased activity against DNA rendered AP by either heat/acid treatment or by alkylation with methyl methanesulfonate (MMS) followed by heat. One chromatin-associated activity, with pI 9.8, which was not active on native DNA, showed the greatest activity on AP DNA. AP activity was moderately decreased in XP cells and slightly decreased in mouse melanoma cells, as compared with normal cells, in the fraction at pI 9.8. Little or no increased activity was observed in any of the endonucleases from any of the cell lines on MMS alkylated DNA.
Chemico-Biological Interactions.
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ABSTRACT: Nonerythroid α-spectrin (αSpIIΣ∗) is a structural protein that has been identified in the nucleus of mammalian cells and shown to be involved in DNA repair. It is also deficient in cells from the clinically diverse genetic disorder Fanconi anemia (FA). In order to get a clearer understanding of the role of αSpIIΣ∗ in DNA repair, and whether it may have other important functions in the nucleus, studies were undertaken to identify specific αSpIIΣ∗ protein binding partners in the nucleus. The results demonstrate that multiple proteins co-immunoprecipitate with αSpIIΣ∗ from nuclear extracts from normal human lymphoblastoid and HeLa cells. These can be grouped into five categories: structural proteins, proteins involved in DNA repair, chromatin remodeling proteins, FA proteins, and transcription and RNA processing factors. These studies indicate that αSpIIΣ∗ may play a role in a number of diverse and important processes in the nucleus and that a deficiency in this protein, as occurs in FA, could affect a number of critical cellular pathways.
Cell Biology International.
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ABSTRACT: Cell from patients with xeroderma pigmentosum, complementation group A (XPA), are known to be defective in repair of pyrimidine dimers and other forms of damage produced by 254-mm ultraviolet (UVC) radiation. We have isolated a DNA endonuclease, p1 7.6, from the chromatin of normal human lymphoblastoid cells which recognizes damage produced by UVC light, and have introduced this endonuclease into UVC-irradiated XPA cells in culture to determine whether it can restore their markedly deficient DNA repair-related unscheduled DNA synthesis (UDS). Introduction of the normal endonuclease, which recognizes predominantly pyrimidine dimers. but not the corresponding XPA endonuclease into UVC-irradiated XPA cells restored their levels of UDS to approximately 80% of normal values. Electroporation of both the normal and the XPA endonuclease into normal human cells increases UDS is normal cells to higher than normal values. These results indicate that the normal endonuclease can restore UDS in UVC-irradiated XPA cells. They also indicate that XPA cells have an endonuclease capable of increasing the efficiency of repair of UVC damage in normal cells.
Mutation Research Letters.
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ABSTRACT: Deoxyribonuclease activities were examined in isoelectric focusing fractions of non-histone, chromatin-associated and nucleoplasmic proteins of isolated normal human lymphoblastoid and mouse melanoma cell nuclei using parallel procedures. A very similar series of eight DNA endonucleases, each active on calf thymus DNA and containing no exonuclease activity, were found in the chromatin proteins of both cell lines. Several differences were observed: an activity in human cells at pI 6.6 was absent from murine cells, and there was an increased activity in mouse cells at pI 4.4 and a decreased activity at pI 7.3, as compared with corresponding human cell activities. Assay of these fractions against supercoiled, circular phage PM2 DNA showed greater activity among the fractions with acidic pI valves and slightly lower activities in the murine cells than in the human cells. Analysis of the nucleoplasmic fractions showed a series of DNA endonuclease and exonuclease activities which were again very similar between the two cell lines, although greater endonuclease activity at pI 4.4 occurred in mouse than in human nucleoplasm. These results demonstrate an entire series of deoxyribonuclease activities in both chromatin and nucleoplasm which are nearly identical in two very different mammalian cell lines, suggesting that many of these enzymes are ubiquitous in mammalian cell nuclei.
Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression.
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ABSTRACT: The co-recessive inheritance hypothesis proposes that certain recessively inherited diseases require homozygosity and/or hemizygosity for defective alleles at more than one locus simultaneously for the trait to be expressed. Although this hypothesis was originally proposed in the context of defective alleles for genes coding for DNA-repair functions, it need not he limited to this context, and genetic selection pressure may favor this model for genes involved in surveillance of any type. The co-recessive inheritance hypothesis also predicts extremely high carrier frequencies, likely affecting much of the general population, for defective alleles associated with these rare recessive diseases. The model predicts much lower rates of consanguinity between the parents of affected individuals than autosomal recessive inheritance, allowing it to be tested epidemiologically, and recent data suggest that the hypothesis may be valid for some cases of ataxia telangiectasia and xeroderma pigmentosum. The model provides possible explanations for a number of otherwise puzzling findings in several diseases associated with defective DNA repair.
Mutation Research/DNA Repair.
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ABSTRACT: A DNA binding protein with specificity for DNA containing interstrand cross-links Induced by 4,5‘,8-trlmethylpsoralen (TMP) plus long wavelength ultraviolet (UVA) light has been identified in normal human chromatin. Protein binding to DNA was determined using a gel mobility shift assay and an ollgonucleotide containing a hot spot for formation of psoralen Interstrand cross-links. Specificity of the damage-recognition protein for cross-links was demonstrated both by a positive correlation between level of cross-link formation in DNA and extent of protein binding and by effective competition by treated but not undamaged DNA for the binding protein. Chromatin protein extracts from cells from individuals with the genetic disorder, Fanconi anemia, complementation group A (FA-A), which have decreased ability to repair damage produced by TMP plus UVA light, failed to show any protein binding to TMP plus UVA treated DNA. We have previously shown that these chromatin protein extracts contain a DNA endonuclease complex, pi 4.6, which specifically recognizes and incises DNA containing Interstrand cross-links and which In FA-A cells Is defective In its ability to incise this damaged DNA (Lambert et al. (1992) Mutation Res., 273, 57–71). Together, these findings suggest that the DNA binding protein identified Is involved in recognition and repair of DNA Interstrand cross-links
