Molecular characterisation of camptothecin-induced mutations at the hprt locus in Chinese hamster cells

The capacity of the topoisomerase I inhibitor camptothecin (CPT) to induce single locus mutations at the hypoxanthine-guanine phosphoribosyltransferase (hprt) gene and the DNA changes underlying induced mutations were analysed in Chinese hamster ovary cells. Camptothecin treatments increased hprt mutations up to 50-fold over the spontaneous levels at highly cytotoxic doses. Genomic DNA was isolated from 6-thioguanine resistant clones and subjected to multiplex PCR to screen for gross alterations in the gene structure. The molecular analysis revealed that deletion mutants represented 80% of the analysed clones, including total hprt deletion, multiple and single exon deletions. Furthermore, a fraction of the analysed clones showed deletions of more than one exon that were characterised by the absence of non-contiguous exons. These data show that single locus mutations induced by camptothecin are characterised by large deletions or complex rearrangements rather than single base substitutions and suggest that the recombinational repair of camptothecin-induced strand breaks at replication fork may be involved in the generations of these alterations at the chromatin structure level.     

In vivo ionizing irradiations produce deletions in the hprt gene of human T-lymphocytes

The hprt T-lymphocyte cloning assay, which detects mutations occurring in vivo in humans, has been used to examine mutants induced in patients receiving radioimmunoglobulin therapy (RIT) for cancer. Samples from 13 patients before treatment (controls) and 15 samples from 12 patients after treatment were studied for both mutant frequencies and molecular changes in the hprt mutant T-cell clones. Patients were studied up to 48 months after treatment. Post-RIT patients showed increased mutant frequencies as compared to pre-treatment values. T-cell receptor (TCR) gene analysis of mutant T-cell clones demonstrated that 84% arose independently, both pre- and post-treatment, which is the same proportion as seen in normal individuals. However, several individuals did show large sets of mutants with the same TCR gene rearrangement patterns. Molecular analysis of mutants demonstrated a greater proportion of mutations with hprt gene changes on Southern blots after RIT treatment than before (40% versus 20%). RIT increases the proportion of mutations with total rather than partial gene deletions or other gross structural changes compared to normal individuals or pre-treatment patients. These studies are defining the spectrum for radiation-induced hprt gene mutations in vivo in human T-lymphocytes.     

Molecular analysis of spontaneous mutations at the gpt locus in Chinese hamster ovary (AS52) cells

AS52 cells are Chinese hamster ovary (CHO) cells that carry a single functional copy of the bacterial gpt gene and allow the isolation of 6-thioguanine-resistant (6TGr)mutants arising from mutation at the chromosally integrated gpt locus. The gpt locus in AS52 cells is extremely stable, giving rise to 6TGr mutants at frequencies comparable to the endogenous CHO hprt locus. In this study, we describe the spectrum of spontaneous mutations observed in AS52 cells by Southern blot and DNA sequence analyses. Using the polymerase chain reaction (PCR) and the Thermus aquaticus (Taq) polymerase, we have enzymatically amplified 6TGr mutant gpt sequences in vitro. The PCR product was then sequenced without further cloning manipulations to directly identify gpt structural gene mutations. Deletions predominant among the 62 spontaneous 6TGr-AS52 mutant clones analyzed in this study. Of these, 79% (49/62) of the mutations were identified as deletions either by Southern blotting, PCR amplification or DNA sequence analysis. Among these deletions is a predominant 3-base deletion that was observed in 31% (19/62) of the mutants. These data provide a basis for future comparisons of induced point mutational spectra derived in the AS52 cell line, and demonstrate the utility of PCR in the generation of DNA sequence spectra derived from chromosomally integrated mammalian loci.     

In vivo ionizing irradiations produce deletions in the hprt gene of human T-lymphocytes

The hprt T-lymphocyte cloning assay, which detects mutations occurring in vivo in humans, has been used to examine mutants induced in patients receiving radioimmunoglobulin therapy (RIT) for cancer. Samples from 13 patients before treatment (controls) and 15 samples from 12 patients after treatment were studied for both mutant frequencies and molecular changes in the hprt mutant T-cell clones. Patients were studied up to 48 months after treatment. Post-RIT patients showed increased mutant frequencies as compared to pre-treatment values. T-cell receptor (TCR) gene analysis of mutant T-cell clones demonstrated that 84% arose independently, both pre- and post-treatment, which is the same proportion as seen in normal individuals. However, several individuals did show large sets of mutants with the same TCR gene rearrangement patterns. Molecular analysis of mutants demonstrated a greater proportion of mutations with hprt gene changes on Southern blots after RIT treatment than before (40% versus 20%). RIT increases the proportion of mutations with total rather than partial gene deletions or other gross structural changes compared to normal individuals or pre-treatment patients. These studies are defining the spectrum for radiation-induced hprt gene mutations in vivo in human T-lymphocytes.     

Mutations induced by benzo[a]pyrene diolepoxide at the hprt locus in human T-lymphocytes in vitro

Human T-lymphocytes have been treated with benzo[a]pyrene diolepoxide (BPDE) in vitro and T-cell clones mutated in the hprt gene have been isolated. The mutant frequencies in BPDE-treated T-cell cultures were on average 24-fold higher than those of untreated cultures. Thus, BPDE is a potent inducer of gene mutation in this system. In order to examine which types of mutations are induced by BPDE in human cells, 41 spontaneous and 44 BPDE-induced mutant clones have been characterized using the Southern blot technique. In addition, rearrangements of the T-cell-receptor beta and gamma loci have been used to determine the proportion of isolated clones that are unique, and thus likely to represent independent mutational events. Out of 23 independent spontaneous mutants 4 had large hprt alterations that could be detected on Southern blots. Two of these alterations, deletions of exons 2-6, have been confirmed using PCR of hprt cDNA and direct sequencing of the PCR product. All 33 independent BPDE-induced mutants had normal hprt restriction patterns which indicates that BPDE is mainly a point mutagen in this system.     

Large deletions are tolerated at the hprt locus of in vivo derived human T-lymphocytes.

A cloning assay was used to recover hprt- T-lymphocytes from adult human males. Analysis of crude cellular extracts by polymerase chain reactions (PCRs) demonstrated that 7% (16/218) of the hprt mutations were due to total deletion of the hprt gene. 14 of the 16 mutants were examined by PCR for the presence of flanking DNA to determine the extent of the deletions. The deletion mutation in 13 mutants was at least 350 kb with 5 of these deletions being at least 700 kb. The largest deletions were greater than 15 times the size of the hprt gene. Therefore, large deletions are tolerated at the hprt locus of human T-lymphocytes.     

The nature of mutants induced by ionising radiation in cultured hamster cells. III. Molecular characterization of HPRT-deficient mutants induced by gamma-rays or alpha-particles showing that the majority have deletions of all or part of the hprt gene

DNA from 58 independent HPRT-deficient mutants of V79 hamster cells induced by ionising radiation was analysed by Southern blot hybridization to a full-length hamster hprt cDNA. About half of the gamma-ray-induced mutants (20/43) were apparently total gene deletions, because they lacked all functional hprt gene sequences hybridizing to the cDNA probe. Another 10 mutants showed various partial deletions and/or rearrangements of the hprt gene. The remaining 13 mutants showed no detectable change in comparison to the structure of the normal gene, which correlated well with previous characterization of these mutants indicating that most carry point mutations in the hprt gene. However, it is probable that some of these point mutations occurred spontaneously rather than being radiation-induced. A smaller number of alpha-particle induced mutants gave similar results: out of a total of 15 mutants, 6 appeared to be total gene deletions, 5 had partial deletions and/or rearrangements, and 4 had no detectable changes. Thus, 70% or more of radiation-induced HPRT-deficient mutants arise through large genetic changes, especially deletions of all or part of the hprt gene. This result is to be contrasted with data published previously by ourselves and others indicating that the majority of spontaneous and ethyl methanesulphonate-induced mutations of hprt and similar genes arise by point mutation.     

Mutations affecting RNA splicing in man are detected more frequently in somatic than in germ cells

The spectrum of DNA sequence alterations in the hypoxanthine-guanine phosphoribosyltransferase (hprt) gene of HPRTase-deficient T-lymphocytes isolated from the blood of healthy male donors was determined and compared with the spectrum found in patients suffering from genetic diseases (Lesch-Nyhan syndrome or gouty arthritis) associated with a mutation in the same gene. Most of the T-cell mutants still produced hprt mRNA which was converted into cDNA and used for DNA sequence analysis after amplification using the polymerase chain reaction (PCR). In 39% of the 31 analyzed T-cell mutants of normal donors 1 or 2 exons were completely or partially deleted from hprt mRNA, probably because of a mutation in a splice acceptor site. Among patients suffering from the Lesch-Nyhan syndrome or gouty arthritis, the class of splice mutations amounts only to 7%. These data suggest that carriers of splice mutations often do not show the characteristics of HPRTase deficiency associated with these genetic diseases, because correctly spliced hprt mRNA is still produced at a low level.     

Molecular analysis of hprt mutants induced by 2-cyanoethylene oxide in human lymphoblastoid cells

The mutagenic epoxide metabolite of acrylonitrile, 2-cyanoethylene oxide (ANO), was used to treat human TK6 lymphoblasts (150 microM x 2 h ANO). A collection of hypoxanthine-phosphoribosyltransferase (hprt) mutants was isolated and characterized by dideoxy sequencing of cloned hprt cDNA. Base-pair substitution mutations in the hprt coding region were observed in 19/39 of hprt mutants: 11 occurred at AT base pairs and 8 at GC base pairs. Two -1 frameshift mutations involving GC bases were also observed. Approximately half (17/39) of the hprt mutants displayed the complete loss of single and multiple exons from hprt cDNA, as well as small deletions, some extending from exon/exon junctions. Southern blot analysis of 5 mutants with single exon losses revealed no visible alterations. Analysis of 1 mutant missing exons 3-6 in its hprt mRNA revealed a visible deletion in the corresponding region in its genomic DNA. The missing exon regions of 4 mutants (one each with exons 6, 7 and 8 loss and one mutant with a 17-base deletion of the 5' region of exon 9) were PCR amplified from genomic DNA and analyzed by Southern blot using exon-specific probes. The exons missing from the hprt mRNA were present in the genomic hprt sequence. DNA sequencing of the appropriate intron/exon regions of hprt genomic DNA from a mutant with exon 8 loss and a mutant exhibiting aberrant splicing in exon 9 revealed point mutations in the splice acceptor site of exon 8 (T----A) and exon 9 (A----G), respectively.     

Molecular analysis of spontaneous and ethyl methanesulphonate-induced mutations of the hprt gene in hamster cells

Independent spontaneous or ethyl methanesulphonate (EMS)-induced mutants lacking HPRT enzyme activity were analysed for changes in hprt gene structure. Of 21 spontaneous mutants, 6 had total gene deletions, 2 had partial gene deletions, and 13 were indistinguishable from wild-type by Southern analysis. In contrast a sample of 23 EMS-induced mutants, each of which showed potentially interesting characteristics (e.g. high reversion frequency, X-chromosome rearrangement), showed no detectable hprt gene changes. RNA isolated from 59 mutants with presumptive point mutations (13 spontaneous, 46 EMS-induced) was analysed on dot blots for changes in the amount of hprt mRNA. A wide range of mRNA levels was found, from mutants with undetectable amounts to those with more than wild-type amounts. However, Northern blots of all these mutant RNAs revealed only one (EMS-induced) mutation with a change in hprt mRNA size. Taken with our previously-published data on these mutants, it is argued that they represent a broad range of mutational types, and that the hprt gene mutation system provides a sensitive means of distinguishing mutational spectra of different DNA-damaging agents.     

Use of T-cell receptor gene probes to quantify the in vivo hprt mutations in human T-lymphocytes

T-cell receptor (Ti) gene restriction fragment patterns (RFPs) were determined by Southern blots of genomic DNA obtained from T-lymphocyte colonies isolated from a single normal individual. 4 wild-type colonies and 11 in vivo derived 6-thioguanine-resistant mutant colonies with previously characterized hprt gene structural alterations were studied. Among the hprt mutants, 10 of the 11 showed unique Ti RFPs indicating their origins in different in vivo progenitors. Unique Ti RFPs were also seen among the wild-type T-cell colonies. One, however, shared its Ti RFP with a mutant. These results suggest that mutation in vivo of the hprt gene in human T-lymphocytes occurred after thymic maturation and that the 11 recovered hprt mutants probably resulted from 11 independent mutational events.     

Molecular analyses of in vivo hprt mutations in human T-lymphocytes. III. Longitudinal study of hprt gene structural alterations and T-cell clonal origins

The hprt clonal assay detects mutations occurring in vivo in the hypoxanthine-guanine phosphpribosyltransferase (hprt) gene of human T-lymphocytes. Analysis of 94 wild-type and 326 hprt mutant clones from 3 normal males was performed using Southern blotting with hprt and T-cell receptor (TCR) gene probes. Gross structural alterations of the hprt gene occurred in 14% of the in vivo derived mutants. Breakpoints were randomly distributed across the gene with one possible mutational “hot spot” observed. Most hprt mutants were independent as judge by TCR gene rearrangement patterns indicating that the measured hprt mutant frequency is a good measure of the actual hprt mutation frequency. However, sibling mutants (generally doublets and triplets except for one nonamer) were detected. Information on the timing in vivo of the hprt mutational events and the persistence in vivo of sibling mutants was also obtained.     

Localization of deletion breakpoints in radiation-induced mutants of the hprt gene in hamster cells

DNA was analysed from a large set of hamster hprt gene mutants, some induced by ionising radiations and others occurring naturally, to identify those with large alterations in part of the gene. DNA from these mutants was restricted further with different endonucleases and probed to establish the patterns of restriction fragments remaining. Of 15 mutants characterized, one showed a duplication of part of the 5' end of the gene, and the remainder showed deletions of various sizes. It was possible to approximately locate the breakpoints of the deletions by comparison of fragment patterns to a recently-established map of the hamster gene. The relatively small number of mutants examined precludes rigorous analysis of the distribution of breakpoints in the hprt gene, but taken with other recent studies of deletion mutagenesis it is suggested that non-random induction or selection of this type of mutation may occur.     

Mutagenicity of 2-amino-N6-hydroxyadenine to TK6 human lymphoblast cells

TK6 human lymphoblast cells (tk +/-; hprt+) were treated with various concentrations of 2-amino-N6-hydroxyadenine (AHA) for 24 h. AHA was quite toxic to TK6 cells in the dose range 0-0.05 micrograms/ml, but additional toxicity was not observed between 0.05 and 0.10 micrograms/ml. AHA induced mutations at 2 distinct genetic loci: the autosomal thymidine kinase (tk) and the X-linked hypoxanthine-guanine phosphoribosyl transferase (hprt). Significant levels of both tk-NG mutants (normal growth rate of 16-18 h, colonies visible after 10-11 days incubation) and tk-SG mutants (slow growth rate of greater than 24 h, colonies visible after 18 days incubation) were induced. 15 hprt- mutants were isolated and analyzed by Southern blot. 8 of these had normal restriction fragment patterns after digestion with PstI, EcoRI, and HindIII, and were defined as 'point' mutations; the remaining 7 had partial deletions of the hprt gene. 32 tk- mutants were also isolated. 3 of 22 normal growth mutants and 6 of 10 slow growth mutants had lost the active tk allele. These data suggest that both point mutations and larger-scale alterations are induced by AHA.     

Restriction fragment pattern analysis of HPRT mutations induced in rat-liver epithelial cells by alkylating and arylating agents.

Structural alterations in the hypoxanthine-guanine phosphoribosyl transferase (HPRT) gene in genomic DNA of adult rat-liver (ARL) epithelial cells that were mutated by alkylating and arylating mutagens were studied by restriction enzyme fragment pattern (RFP) analysis. ARL cells were mutated with the direct-acting alkylating agent N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) or the activation-dependent arylating agents 7,12-dimethylbenz[a]anthracene (DMBA) and N-2-acetylaminofluorene (AAF). Alterations in the HPRT gene of at least 10 independent 6-thioguanine-resistant (TGr) clones mutated by each chemical were analyzed using 8 different restriction endonucleases; Hind III, EcoRI, BamHI, XbaI, Hae III, XhoI, MspI and PstI, and a full-length HPRT cDNA as a probe in molecular hybridization. Among the 10 MNNG-induced mutants, the RFPs obtained with most endonucleases displayed no changes, while an altered RFP was found in only one mutant using XbaI. None of the 10 DMBA-induced mutants displayed altered RFPs. Restriction analysis of the 10 AAF-induced mutants showed no abnormality in HPRT gene structure in most restriction digests, while altered RFPs were detected in one mutant using MspI and in two mutants with XbaI digestion. Overall, the studies reveal an absence of major DNA sequence changes in 26 of 30 induced mutants although the mutant phenotype of 4 of the TGr clones can be attributed to gross chromosomal changes or a point mutation at the restriction site. The absence of detectable alterations in the RFPs of the majority of the mutants is strongly suggestive of base substitution as the major molecular alteration underlying the mutant phenotype. The HPRT activity of 14 of 30 mutants was at least 5% of the wild-type level, which is consistent with a structural alteration in the gene product expressed as partial activity of the enzyme. Therefore, the data are interpreted as indicating that in the ARL cells, all 3 mutagens induced primarily localized alterations in base sequences in the HPRT gene together with a few mutations involving large sequence changes.     

Mapping large spontaneous deletion endpoints in the human HPRT gene

In an attempt to understand the nature, frequency, and molecular origin of spontaneous mutations in human cells, we have analyzed 85 independent, spontaneous HPRT- human B-lymphoblast clones with particular emphasis on the determination and characterization of large structural alterations (i.e., deletions, insertions, duplications, etc.). Southern blot analysis using a full-length HPRT cDNA probe revealed that 39% (33/85) of these spontaneous mutants contained alterations affecting different regions of the gene. 12% (10/85) were total gene deletions, 25% (21/85) involved alterations with one or both endpoints intragenic to HPRT, and 2% (2/85) showed wild-type banding patterns with an additional hybridizing band. To further address the positional behavior of these alterations, the endpoints of the large deletions were mapped to specific exon/intron regions by hybridization of Southern blots with a series of HPRT exon-specific probes. This analysis revealed a disproportionate number of endpoints within the 3' portion of the gene. These findings are discussed in relation to the positional specificity of large alterations in human cells and the use of such an analysis for assessing the molecular mechanism(s) responsible for their production.     

Molecular characterization of hprt mutants induced by low- and hgh-LET radiations in human cells

Southern blotting techniques were employed to examine the spectrum of molecular alterations in DNA induced by internally emitting iodine isotopes and X-rays at and around the hprt locus in a human lymphoblastoid cell line. We analyzed 165 mutant clones using a cDNA probe for the human hprt locus, and 3 anonymous sequenceprobes for regions of the X-chromosome which are linked to hrpt. The results were compared with those for 35 spontaneously arising mutant clones. The majority of ionizing radiation-induced mutants showed changes in the normal restriction patterns at the hprt locus, whereas very few alterations were seen at linked markers along the X chromosome. Total hprt coding sequence deletions comprised 30–48% of the changes observed at this locus, while partial deletions and rearrangements comprised 14–54% of the observed changes. In the case of mutants induced by [^125I]dUrd, a densely ionizing radiation, the spectrum of alterations was dose-dependent; at low doses it was not significantly different from that seen after sparsely ionizing X-ray exposure, whereas a higher proportion of gene deletions and rearrangements occurred after high doses of this incorporated isotope. Changes were rarely observed in the 3 linked markers examined. Overall, these results indicate that the distribution of mutational events at the hprt locus in irradiated human cells may not only be LET-dependent but dose-dependent, and that deletions involving large regions of the X chromosome surrounding the hprt locus are rae events.     

Molecular changes in UV-induced and γ-ray-induced mutations in human lymphoblastoid cells

We have characterized the structural changes in the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene of 14 UV-induced, 15 γ-ray-induced and 17 spontaneous mutants of human lymphoblastoid cells selected for 6-thioguanine (6TG) resistance. Southern blot analysis using the full-length HPRT cDNA as a probe revealed that 29% (5/17) of the spontaneous mutants contained detectable alterations in their restriction fragment patterns. Among the 15 mutants induced by γ rays, 7 (47%) had such alterations indicative of large deletions in the HPRT gene. In contrast, all 14 UV-induced mutants exhibited hybridization patterns indistinguishable from those of the wild-type cells. These results suggest that UV is likely to induce point mutations at the HPRT locus on the human chromosome and that the molecular mechanism of UV-induced mutation is quite different from that of ionizing radiation-induced mutation or spontaneous mutation in human cells.