TY - JOUR
T1 - Loss of Glis2/NPHP7 causes kidney epithelial cell senescence and suppresses cyst growth in the Kif3a mouse model of cystic kidney disease
AU - Lu, Dongmei
AU - Rauhauser, Alysha
AU - Li, Binghua
AU - Ren, Chongyu
AU - McEnery, Kayla
AU - Zhu, Jili
AU - Chaki, Moumita
AU - Vadnagara, Komal
AU - Elhadi, Sarah
AU - Jetten, Anton M.
AU - Igarashi, Peter
AU - Attanasio, Massimo
N1 - Publisher Copyright:
© 2016 International Society of Nephrology
PY - 2016
Y1 - 2016
N2 - Enlargement of kidney tubules is a common feature of multiple cystic kidney diseases in humans and mice. However, while some of these pathologies are characterized by cyst expansion and organ enlargement, in others, progressive interstitial fibrosis and kidney atrophy prevail. The Kif3a knockout mouse is an established non-orthologous mouse model of cystic kidney disease. Conditional inactivation of Kif3a in kidney tubular cells results in loss of primary cilia and rapid cyst growth. Conversely, loss of function of the gene GLIS2/NPHP7 causes progressive kidney atrophy, interstitial inflammatory infiltration, and fibrosis. Kif3a null tubular cells have unrestrained proliferation and reduced stabilization of p53 resulting in a loss of cell cycle arrest in the presence of DNA damage. In contrast, loss of Glis2 is associated with activation of checkpoint kinase 1, stabilization of p53, and induction of cell senescence. Interestingly, the cystic phenotype of Kif3a knockout mice is partially rescued by genetic ablation of Glis2 and pharmacological stabilization of p53. Thus, Kif3a is required for cell cycle regulation and the DNA damage response, whereas cell senescence is significantly enhanced in Glis2 null cells. Hence, cell senescence is a central feature in nephronophthisis type 7 and Kif3a is unexpectedly required for efficient DNA damage response and cell cycle arrest.
AB - Enlargement of kidney tubules is a common feature of multiple cystic kidney diseases in humans and mice. However, while some of these pathologies are characterized by cyst expansion and organ enlargement, in others, progressive interstitial fibrosis and kidney atrophy prevail. The Kif3a knockout mouse is an established non-orthologous mouse model of cystic kidney disease. Conditional inactivation of Kif3a in kidney tubular cells results in loss of primary cilia and rapid cyst growth. Conversely, loss of function of the gene GLIS2/NPHP7 causes progressive kidney atrophy, interstitial inflammatory infiltration, and fibrosis. Kif3a null tubular cells have unrestrained proliferation and reduced stabilization of p53 resulting in a loss of cell cycle arrest in the presence of DNA damage. In contrast, loss of Glis2 is associated with activation of checkpoint kinase 1, stabilization of p53, and induction of cell senescence. Interestingly, the cystic phenotype of Kif3a knockout mice is partially rescued by genetic ablation of Glis2 and pharmacological stabilization of p53. Thus, Kif3a is required for cell cycle regulation and the DNA damage response, whereas cell senescence is significantly enhanced in Glis2 null cells. Hence, cell senescence is a central feature in nephronophthisis type 7 and Kif3a is unexpectedly required for efficient DNA damage response and cell cycle arrest.
KW - DNA damage
KW - Kif3a
KW - cystic kidney disease
KW - nephronophthisis
KW - senescence
UR - http://www.scopus.com/inward/record.url?scp=84978139297&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84978139297&partnerID=8YFLogxK
U2 - 10.1016/j.kint.2016.03.006
DO - 10.1016/j.kint.2016.03.006
M3 - Article
C2 - 27181777
AN - SCOPUS:84978139297
SN - 0085-2538
VL - 89
SP - 1307
EP - 1323
JO - Kidney international
JF - Kidney international
IS - 6
ER -