TY - JOUR
T1 - The LIM-homeodomain transcription factor Lmx1b plays a crucial role in podocytes
AU - Rohr, Claudia
AU - Prestel, Jürgen
AU - Heidet, Laurence
AU - Hosser, Hiltraud
AU - Kriz, Wilhelm
AU - Johnson, Randy L.
AU - Antignac, Corinne
AU - Witzgall, Ralph
PY - 2002
Y1 - 2002
N2 - Patients with nail-patella syndrome often suffer from a nephropathy, which ultimately results in chronic renal failure. The finding that this disease is caused by mutations in the transcription factor LMX1B, which in the kidney is expressed exclusively in podocytes, offers the opportunity for a better understanding of the renal pathogenesis. In our analysis of the nephropathy in nail-patella syndrome, we have made use of the Lmx1b knockout mouse. Transmission electron micrographs showed that glomerular development in general and the differentiation of podocytes in particular were severely impaired. The glomerular capillary network was poorly elaborated, fenestrae in the endothelial cells were largely missing, and the glomerular basement membrane was split. In addition podocytes retained a cuboidal shape and did not form foot processes and slit diaphragms. Expression of the ct4 chain of collagen IV and of podocin was also severely reduced. Using gel shift assays, we demonstrated that LMX1B bound to two AT-rich sequences in the promoter region of NPHS2, the gene encoding podocin. Our results demonstrate that Lmxlb regulates important steps in glomerular development and establish a link between three hereditary kidney diseases: nail-patella syndrome (Lmx1b), steroid-resistant nephrotic syndrome (podocin), and Alport syndrome (collagen IV ct4).
AB - Patients with nail-patella syndrome often suffer from a nephropathy, which ultimately results in chronic renal failure. The finding that this disease is caused by mutations in the transcription factor LMX1B, which in the kidney is expressed exclusively in podocytes, offers the opportunity for a better understanding of the renal pathogenesis. In our analysis of the nephropathy in nail-patella syndrome, we have made use of the Lmx1b knockout mouse. Transmission electron micrographs showed that glomerular development in general and the differentiation of podocytes in particular were severely impaired. The glomerular capillary network was poorly elaborated, fenestrae in the endothelial cells were largely missing, and the glomerular basement membrane was split. In addition podocytes retained a cuboidal shape and did not form foot processes and slit diaphragms. Expression of the ct4 chain of collagen IV and of podocin was also severely reduced. Using gel shift assays, we demonstrated that LMX1B bound to two AT-rich sequences in the promoter region of NPHS2, the gene encoding podocin. Our results demonstrate that Lmxlb regulates important steps in glomerular development and establish a link between three hereditary kidney diseases: nail-patella syndrome (Lmx1b), steroid-resistant nephrotic syndrome (podocin), and Alport syndrome (collagen IV ct4).
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U2 - 10.1172/JCI0213961
DO - 10.1172/JCI0213961
M3 - Article
C2 - 11956245
AN - SCOPUS:0036117988
SN - 0021-9738
VL - 109
SP - 1073
EP - 1082
JO - Journal of Clinical Investigation
JF - Journal of Clinical Investigation
IS - 8
ER -