TY - JOUR
T1 - Possible association of the allele status of the CS.7/HhaI polymorphism 5' of the CFTR gene with postnatal female survival
AU - Macek, Milan
AU - Macek, Milan
AU - Krebsová, Alice
AU - Nash, Elizabeth
AU - Hamosh, Ada
AU - Reis, André
AU - Varon-Mateeva, Raymonda
AU - Schmidtke, Jörg
AU - Maestri, Nancy E.
AU - Sperling, Karl
AU - Krawczak, Michael
AU - Cutting, Garry R.
N1 - Funding Information:
Acknowledgements We are indebted to R. Duspivová, M. Can-drová, A. Bóday (University Hospital Prague-Motol), H.Viletová, Dr. J. Hyánek, Dr. P. Schneiderka (1st School of Medicine, Charles University, Prague), L. Ladányi, and R. Eckhard (Institute of Human Genetics, Humboldt University, Berlin) for blood collection and/or technical assistance. We are obliged to Drs. B. Ma„ková, J. 'tìpán, K. 'tìpán, I. 'mídová (Geriatric Departments of the University Hospital Prague-Motol), J. Neuwirth, J. Musilová, R. Jirák (Internal, Geriatric and Psychiatric Departments of 1st School of Medicine, Charles University), J. ˇmídová (Charles Univ. Student Medical Center, Prague), and J. Fráòa (Department of Medical Genetics, Brno) for ascertainment of young and elderly individuals. We thank Drs. E. Taylor and D. Meyers for advice regarding statistical analysis, and B. Childs and H. Di-etz for helpful comments on the manuscript (Johns Hopkins University School of Medicine, Baltimore). Finally, we thank A. Kadlecová-Macková and B. Vyklická-Tøísková who inspired this project, and J. Staton for secretarial assistance. This work was supported by grants from NIDDK (DK 44003) to G.R.C and K08 DK0215 to A.H.; IGA of the Czech Ministry of Health (2899–5, 3526–3), and Research Grant Agency (GA ÈR – 1148–6) of the Czech republic to M.M.Sr and M.M.Jr; US-Czech Science and Technology Program (94003) to M.M.Sr and G.R.C.; DFG to A.R., K.S., and J.S. (SFB 174); and the Sonnenfeld Foundation to K.S.
PY - 1997/5
Y1 - 1997/5
N2 - Cystic fibrosis (CF) patients show a high degree of linkage disequilibrium between the CF transmembrane conductance regulator (CFTR) gene and polymorphisms 5' of that gene. To determine whether the region 5' of CFTR contains biologically important sequences, the allele frequencies of six CFTR-linked polymorphisms (metH/MspI, XV-2c/TaqI, CS.7/HhaI, KM19/PstI, MP6-d9/MspI, J44/XbaI) were determined in 417 randomly selected elderly individuals (over 75 years of age) from the Czech population. The elderly individuals were considered 'escapees' of strong selective pressures that had operated during their lifetime, prior to the introduction of modern health care since 1950. The pooled allele frequencies of the analyzed marker polymorphisms in the elderly did not significantly differ from published data. However, when analyzed by sex, the allele frequencies of markers CS.7/HhaI and KM19/PstI differed significantly (P < 0.05) between elderly females and males. The allele frequencies of the six polymorphisms were then determined in 646 newborns and 345 young adults of reproductive age; these individuals were selected in a similar manner and drawn from the same population. In these control groups, the studied marker polymorphisms exhibited no statistically significant differences between sexes and/or between individuals of the same sex, only between different age groups. A gradual relative increase in the frequency of allele '2' of marker CS.7/HhaI was observed from newborn females to elderly women, the overall difference in allele frequencies of this marker polymorphism between newborn females and elderly women reaching statistical significance (P < 0.05). Interestingly, allele '2' is the major constituent of the extended 'B-haplotype', which is in strong linkage disequilibrium with common CF alleles. Taken together, our data suggest that the region spanning markers CS.7 and KM19 is associated with a genetic factor that influences postnatal female survival, providing a possible mechanism for increasing the frequency of particular mutations in the adjacent CFTR gene.
AB - Cystic fibrosis (CF) patients show a high degree of linkage disequilibrium between the CF transmembrane conductance regulator (CFTR) gene and polymorphisms 5' of that gene. To determine whether the region 5' of CFTR contains biologically important sequences, the allele frequencies of six CFTR-linked polymorphisms (metH/MspI, XV-2c/TaqI, CS.7/HhaI, KM19/PstI, MP6-d9/MspI, J44/XbaI) were determined in 417 randomly selected elderly individuals (over 75 years of age) from the Czech population. The elderly individuals were considered 'escapees' of strong selective pressures that had operated during their lifetime, prior to the introduction of modern health care since 1950. The pooled allele frequencies of the analyzed marker polymorphisms in the elderly did not significantly differ from published data. However, when analyzed by sex, the allele frequencies of markers CS.7/HhaI and KM19/PstI differed significantly (P < 0.05) between elderly females and males. The allele frequencies of the six polymorphisms were then determined in 646 newborns and 345 young adults of reproductive age; these individuals were selected in a similar manner and drawn from the same population. In these control groups, the studied marker polymorphisms exhibited no statistically significant differences between sexes and/or between individuals of the same sex, only between different age groups. A gradual relative increase in the frequency of allele '2' of marker CS.7/HhaI was observed from newborn females to elderly women, the overall difference in allele frequencies of this marker polymorphism between newborn females and elderly women reaching statistical significance (P < 0.05). Interestingly, allele '2' is the major constituent of the extended 'B-haplotype', which is in strong linkage disequilibrium with common CF alleles. Taken together, our data suggest that the region spanning markers CS.7 and KM19 is associated with a genetic factor that influences postnatal female survival, providing a possible mechanism for increasing the frequency of particular mutations in the adjacent CFTR gene.
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U2 - 10.1007/s004390050407
DO - 10.1007/s004390050407
M3 - Article
C2 - 9150719
AN - SCOPUS:1842338656
SN - 0340-6717
VL - 99
SP - 565
EP - 572
JO - Human genetics
JF - Human genetics
IS - 5
ER -