Modulation of disease severity in cystic fibrosis transmembrane conductance regulator deficient mice by a secondary genetic factor

被引:323
作者
Rozmahel, R
Wilschanski, M
Matin, A
Plyte, S
Oliver, M
Auerbach, W
Moore, A
Forstner, J
Durie, P
Nadeau, J
Bear, C
Tsui, LC
机构
[1] UNIV TORONTO,DEPT MOLEC & MED GENET,TORONTO,ON,CANADA
[2] UNIV TORONTO,DEPT PHYSIOL,TORONTO,ON,CANADA
[3] UNIV TORONTO,DEPT BIOCHEM,TORONTO,ON,CANADA
[4] UNIV TORONTO,DEPT PEDIAT,TORONTO,ON,CANADA
[5] HOSP SICK CHILDREN,DEPT GENET,TORONTO,ON M56 1X8,CANADA
[6] HOSP SICK CHILDREN,DIV GASTROENTEROL,TORONTO,ON M56 1X8,CANADA
[7] HOSP SICK CHILDREN,DIV CELL BIOL,TORONTO,ON M56 1X8,CANADA
[8] HOSP SICK CHILDREN,DIV BIOCHEM RES,TORONTO,ON M56 1X8,CANADA
[9] MCGILL UNIV,DEPT HUMAN GENET,MONTREAL,PQ,CANADA
来源
NATURE GENETICS | 1996年 / 12卷 / 03期
关键词
D O I
10.1038/ng0396-280
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
Mice that have been made deficient for the cystic fibrosis transmembrane conductance regulator (Cftr) usually die of intestinal obstruction, We have created Cftr-deficient mice and demonstrate prolonged survival among backcross and intercross progeny with different inbred strains, suggesting that modulation of disease severity is genetically determined. A genome scan showed that the major modifier locus maps near the centromere of mouse chromosome 7. Electrophysiological studies on mice with prolonged survival show that the partial rectification of Cl- and Na+ ion transport abnormalities can be explained in part by up-regulation of a calcium-activated Cl- conductance, Identification of modifier genes in our Cftr(m1HSC)/Cft(rm1HSC) mice should provide important insight into the heterogeneous disease presentation observed among CF patients.
引用
收藏
页码:280 / 287
页数:8
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