Identification of sequences of chromosome 7 that are expressed in sweat gland epithelial cells

Summary This paper describes an approach that can be used to identify specifically expressed coding sequences in defined regions of genomic DNA. We developed this method to identify expressed sequences from chromosome 7 located at or near the cystic fibrosis (CF) locus. Radioactively labelled single-stranded cDNAs derived from sweat gland epithelial cells and from fibroblasts were used to screen a genomic library constructed from flow-sorted chromosomes. Differential screening of phage lifts with these two probes yielded 36 different DNA segments. By using somatic cell hybrids containing different portions of chromosome 7, four of the clones were mapped to the 7q31 region in which the CF locus is located. These four clones and two others that gave strong differential epithelial signals but that were not within 7q31 were studied further. Restriction fragment length polymorphisms (RFLPs) were identified for two of the DNA segments within 7q31 and used for linkage analysis using a panel of CF families. One DNA segment was assigned to a location centromeric to the met locus. The other marker did not show recombination with CF but was subsequently excluded from the CF region by physical mapping. Three of the six DNA segments were found to hybridize to various RNAs using the Northern technique and therefore contain portions of genes. One of the clones showed strong differential expression when epithelial tissues were compared to fibroblasts and may represent an epithelium-specific gene.     

Genetic homogeneity of cystic fibrosis.

We studied large Amish/Mennonite/Hutterite kindreds that segregate cystic fibrosis (CF) for linkage between CF and the polymorphic DNA markers pJ3.11 and 7C22 located on chromosome 7. These inbred pedigrees consist of more than 300 members including 30 affected individuals. In these families, linkage between the CF locus and the chromosome 21 marker D21S5 and between CF and the marker at the met oncogene locus on chromosome 7 had been previously indicated. We now report linkage between CF and pJ3.11 (Z = 4.92, theta = 0) and between CF and 7C22 (Z = 3.42, theta = 0). Therefore, CF segregates in these large pedigrees in a manner consistent with data from smaller outbred families with respect to the markers on chromosome 7 closest to CF. These data are consistent with locus homogeneity for the defect causing CF in the populations that have been examined to date.     

Genotyping of the Spanish cystic fibrosis population at the ΔF508 mutation site and RFLP linked loci

Summary Spanish families (n = 75) with at least one affected cystic fibrosis (CF) child were typed for restriction fragment length polymorphisms (RFLPs) by the probes XV2c, KM19, and pMP6d-9. These families were also studied at the 508 mutation site by the polymerase chain reaction method. We have studied the linkage disequilibrium between these markers and the CF mutations, the probable number of independent secondary CFX (non-ΔF508) mutations, and the genetic differences between Spain and Western Europe.     

Cystic fibrosis: typing 89 German families with linked DNA probes

Summary Three hundred and ninety-two subjects from 89 German families were typed for restriction fragment length polymorphisms (RFLPs) detected by the probes pmetH, pmetD, pJ3.11, KM19, and XV2c known to be tightly linked to the cystic fibrosis (CF) gene. The analysis of the predictive value of this typing in individual CF families indicates that the combined use of these probes provides a powerful diagnostic system for both carrier detection and prenatal diagnosis. In 45 families the complete haplotype including all RFLPs was available. Of them 41 (91.1%) were fully informative and 4 were partly informative.     

Exclusion of human chromosome 13q34 as the site of the cystic fibrosis mutation.

We have studied a family in which both cystic fibrosis (CF) and an unbalanced translocation between chromosomes 6 and 13 are found. As CF occurs in the child who is effectively monosomic for the translocated part of the long arm of chromosome 13, it was suggested that the locus of the gene mutation causing CF is on chromosome 13q34. The gene for human coagulation factor X is located at 13q34, and we have found a restriction fragment length polymorphism (RFLP) that is revealed by a cloned cDNA coding for this protein. Linkage analysis in eight CF families shows no evidence of cosegregation between CF and the gene for factor X, strongly suggesting that the locus for the defect causing cystic fibrosis is not at 13q34.     

Isolation of additional polymorphic clones from the cystic fibrosis region, using chromosome jumping from D7S8.

The cystic fibrosis (CF) locus has been located, by both linkage analysis and physical mapping, to a 900-kb region of 7q22-31 flanked by D7S8 (J3.11) and D7S23 (XV-2c). Using a 100-kb general jumping library, we isolated two sequential jump clones, J31 and J29, to one side of the D7S8 region and one jump clone, J32, to the other side of D7S8, so that the total region covered is about 300 kb. Three new RFLPs were detected by J29 and J32. Using PFGE mapping and the three jump clones, we found it possible to orient D7S8 on the chromosome and, by linkage analysis, to further narrow the CF region by 100 kb. The orientation of D7S8 will be useful for directing the isolation of other jump clones toward the CF locus. Though the newly described RFLPs are in considerable linkage disequilibrium with D7S8 polymorphisms, they increase the informativeness of genetic markers in the D7S8 region and should be useful in prenatal diagnosis.     

A linkage study of cystic fibrosis in extended multigenerational pedigrees.

The linkage of polymorphic DNA markers on chromosome 7 to cystic fibrosis (CF) was examined in two pedigrees and a number of smaller nuclear families. The pedigrees are multigenerational and together consist of more than 300 members including 30 affected individuals, while the nuclear families each have two generations and either two or three children with CF. Tight linkage was observed between the CF locus and the met oncogene locus theta = 0, zeta = 15.45), pJ3.11 (theta = 0, zeta = 10.07), and 7C22 (theta = 0, zeta = 6.64) in both the pedigrees and nuclear families with no evidence for recombination between CF and any of the DNA markers. Weaker linkage between the CF locus and the locus for the serum enzyme activity marker paraoxonase (PON) was detected, theta = 0.18, zeta = 0.76. The two pedigrees were sufficiently informative to detect significant linkage between CF and each of the three DNA markers previously shown to be tightly linked to the CF locus. These results establish a locus for CF in these pedigrees in the region of chromosome 7 nearest the three DNA markers met, pJ3.11, and 7C22 and are consistent with locus homogeneity for the defect causing CF in these populations and others that have been examined to date.     

Approaches to localizing disease genes as applied to cystic fibrosis.

Using chromosome jumping and walking and restriction fragment length polymorphism (RFLP) analysis, we have defined the region which must contain the cystic fibrosis gene. DNA segments spanning approximately 250 kb in the direction of the gene were isolated and used to identify several new polymorphisms informative in cystic fibrosis families. These RFLPs include a highly polymorphic, CA/GT repeat, and a 10 bp insertion uncovered using the polymerase chain reaction. By analyzing a family with a recombination near the gene, we can exclude this region as containing the mutation. Data on the extent of linkage disequilibrium of these markers provides additional information on where the gene is located.     

Confirmation of linkage disequilibrium between haplotype B (XV-2c,allele 1; KM-19, allele 2) and cystic fibrosis allele in the French population

Summary In 237 French families with cystic fibrosis (CF) restricted fragment length polymorphisms (RFLPs) were detected by two DNa probes, XV-2c and KM-19, which are tightly linked to the CF allele. As in other European populations linkage disequilibrium is found between the haplotype B (XV-2c, allele 1: KM-19, allele 2) and the CF allele. Linkage disequilibrium alters the probability that a person bearing a given haplotype is a carrier.     

Cystic fibrosis typing with DNA probes: experience of a screening laboratory

Summary A sample of 125 individuals from 37 British cystic fibrosis (CF) families with at least one living affected child were typed with probes for restriction fragment length polymorphisms (RFLPs) known to be linked to the CF gene. These probes were MetD, MetH, pJ3.11 and 7C22. Using this combination of probes, 30 out of the 37 families were sufficiently informative to enable prenatal diagnosis of the disease. Linkage analysis has also proved to be useful in excluding CF in two cases where diagnosis of the disease was equivocal in the sibling of an affected child.     

Recombinations between IRP and cystic fibrosis.

A candidate gene for cystic fibrosis was recently isolated by selective cloning of HpaII-tiny-fragment islands; it maps considerably closer to CF than does MET or D7S8 (pJ3.11), and DNA polymorphisms from this region are in marked disequilibrium with CF. cDNA cloning has shown that this protein has a growth factor-like structure and shows homology to the murine and human proto-oncogene int-1; it is designated IRP (int-1-related protein). DNA sequences from the IRP locus that recognize RFLPs are proving to be highly informative for prenatal diagnosis. We report five crossovers that have been identified which occur either within the IRP locus or between IRP and CF; these recombinants demonstrate that CF maps between the DNA markers D7S8 and KM.19.     

X chromosome linkage studies in familial Rett syndrome

Four families, each with two individuals affectecd by Rett Syndrome (RS), were analysed using restriction fragment lenght polymorphisms and microsatellite markers from the X chromosome. In two of the families, X-linked dominant inheritance of the RS defect from a germinally mosaic mother could be assumed. Therefore, maternal X chromosome markers showing discordant inheritance were used to exclude regions of the X chromosome as locations of the RS gene. Much of the short arm could be excluded, including regions containing three candidate genes, OTC, synapsin 1 and synaptophysin. Although most of the long arm was inherited in common it was possible to exclude a centromeric region. Inheritance of X chromosome markers is also presented for two families with affected aunt-niece pairs, one of which has not been previously studied at the DNA level.     

Identification of carriers by screening for delta F508 deletion in a multi-generation cystic fibrosis family

Samples from 30 members of a french cystic fibrosis (CF) family had to be typed with probes for restriction fragment length polymorphisms (RFLPs) known to be linked to the CF gene, to fulfill the expectations of twenty-two low-risk relatives who were asking for carrier testing. Classical linkage-disequilibrium data between KM-19 and XV-2c polymorphisms and the CF locus were not informative enough for some individuals, and other RFLPs had to be analyzed to determine which chromosomes carried the deficient gene in the family. We report the retrospective screening for delta F508 mutation in this extended family to illustrate the drastic improvements that the direct detection of the major mutation responsible for CF has on genetic counselling of relatives of patients with cystic fibrosis.     

The cystic fibrosis locus

The identification of the cystic fibrosis locus (CF) provides a model for the study of single gene defects where the biochemical lesion is not known. Using families each of which has several affected siblings, it was possible to exclude a number of 'candidate genes' which had previously been proposed as possible sites of the CF mutation. Exclusion mapping of the genome using polymorphic protein and DNA markers showed that CF is on the long arm of human chromosome 7. The most closely linked flanking markers were identified, and human chromosome fragments containing them (and therefore the CF locus) were isolated in rodent cell lines by chromosome-mediated gene transfer. The transgenome was then analysed using cosmid contig mapping, pulse-field gel electrophoresis, HTF island identification and linkage disequilibrium. In this way, a candidate coding sequence has been identified which always segregates with CF.     

Cystic fibrosis: typing 48 German families with linked DNA probes

Summary Two hundred and thirty five subjects from 48 German cystic fibrosis (CF) families were typed for restriction fragment length polymorphisms (RFLPs) detected by the probes pmet H, pmet D, and pJ 3.11, known to be tightly linked to the CF gene. Gene and haplotype frequencies suggest a linkage disequilibrium with the CF locus. The analysis of the predictive value of this typing in individual CF families indicates that the combined use of these probes provides a powerful diagnostic system both for carrier detection and prenatal diagnosis. In 33 out of 48 families carriers and non-carriers could be identified, and in 26 of these 33 families prenatal diagnosis could discriminate between affected and unaffected offspring.     

Cystic fibrosis typing with DNA probes and screening for ΔF508 deletion in families from Southern France

Summary A sample of 235 individuals from 49 French cystic fibrosis (CF) families with at least one living affected child was typed with probes for restriction fragment length polymorphisms (RFLPs) known to be linked to the CF gene, and was screened for the ΔF508 mutation. Using a combination of six probes, 44 out of the 49 families were sufficiently informative to enable prenatal diagnosis or carrier determination. As in many other populations, linkage disequilibrium was found between the CF locus and the haplotype B (XV2c: allele 1; KM19: allele 2), which accounts for about 78% of CF chromosomes in our families. The ΔF508 deletion was present in 64.3% of CF chromosomes.     

Linkage disequilibrium between cystic fibrosis and linked DNA polymorphisms in Italian families: A collaborative study

The locus D7S23 includes a CpG-enriched methylation-free island that maps midway between the markers J3.11 and met and is genetically very close to the mutation causing cystic fibrosis (CF). We have studied the linkage disequilibrium between four polymorphic markers from this locus (KM.19, CS.7, XV-2c, and PT-3) and the CF mutation (CF) in 127 Italian families. Strong linkage disequilibrium is found between KM.19, CS.7, and CF, and weaker but significant disequilibrium is found between XV-2c, PT-3, and CF. The disequilibrium between markers and CF for the Italian population provides additional information on the origin and homogeneity of the CF defect. This panel of probes is sufficiently informative to permit accurate prenatal diagnosis of CF in most families with an affected person, and the disequilibrium also allows indirect carrier detection/exclusion in some cases.     

Alphoid DNA polymorphisms for chromosome 21 can be distinguished from those of chromosome 13 using probes homologous to both.

Although alphoid DNA sequences shared among acrocentric chromosomes have been identified, no human chromosome 21-specific sequence has been isolated from the centromeric region. To identify alphoid DNA restriction fragment length polymorphisms (RFLPs) specific for chromosome 21, we hybridized human genomic DNA with alphoid DNA probes [L1.26; aRI(680),21-208] shared by chromosomes 13 and 21. We detected RFLPs with restriction enzymes ECoRI, HaeIII, MboI,StuI, and TaqI. The segregation of these RFLPs was analyzed in the 40 CEPH families. Linkage analysis between these RFLPs and loci previously mapped to either chromosome 13 or 21 revealed RFLPs that appear to be specific to chromosome 21. These polymorphisms may be useful as genetic markers of the centromeric region of chromosome 21. Different alphoid loci within the centromeric region of chromosome 13 were identified.     

Identification and regional localization of DNA markers on chromosome 7 for the cloning of the cystic fibrosis gene

To facilitate mapping of the cystic fibrosis locus (CF) and to isolate the corresponding gene, we have screened a flow-sorted chromosome 7-specific library for additional DNA markers in the 7q31-q32 region. Unique ("single-copy") DNA segments were selected from the library and used in hybridization analysis with a panel of somatic cell hybrids containing various portions of human chromosome 7 and patient cell lines with deletion of this chromosome. A total of 258 chromosome 7-specific single-copy DNA segments were identified, and most of them localized to subregions. Fifty three of these corresponded to DNA sequences in the 7q31-q32 region. Family and physical mapping studies showed that two of the DNA markers, D7S122 and D7S340, are in close linkage with CF. The data also showed that D7S122 and D7S340 map between MET and D7S8, the two genetic markers known to be on opposite sides of CF. The study thus reaffirms the general strategy in approaching a disease locus on the basis of chromosome location.     

Further data supporting linkage between cystic fibrosis and the met oncogene and haplotype analysis with met and pJ3.11

The linkage of cystic fibrosis (CF) and the polymorphic DNA markers pJ3.11, met, 7C22, DOCR1-917, COL1A2, and TCRB have jointly localized the mutation causing CF to chromosome 7q2.1-3.1. We report further linkage data with two polymorphic markers at the met oncogene locus, pmetH and pmetD, which supports the tight linkage found by White et al. between CF and met. One family shows evidence for meiotic recombination between CF and met. Analysis of haplotypes in CF pedigrees collected for linkage studies combined with data from single affected families requesting prenatal diagnosis (Farrall et al., Lancet i:1402-1404, 1986) shows CF and met to be in linkage equilibrium in our population while pJ3.11-CF haplotypes show a deviation from the equilibrium frequencies.