Presenilins are required for the formation of comma- and S-shaped bodies during nephrogenesis
Author:
Wang Pei12, Pereira Fred A.123, Beasley Duane1, Zheng Hui124
Affiliation:
1. Huffington Center on Aging, Baylor College of Medicine, Houston, TX 77030,USA 2. Department of Molecular and Cellular Biology, Baylor College of Medicine,Houston, TX 77030, USA 3. Department of Otolaryngology, Baylor College of Medicine, Houston, TX 77030,USA 4. Department of Molecular and Human Genetics, Baylor College of Medicine,Houston, TX 77030, USA
Abstract
Mammalian presenilins consist of two highly homologous proteins, PSEN1 and PSEN2, which share redundant activities in Notch processing and signaling. To bypass the early lethality of the Psen1- and Psen2-double(PSEN) null embryos, we used a human PSEN1 transgene to rescue the somite patterning defects in PSEN-null animals and to allow a determination of the function of presenilins in late embryogenesis. We report here that expression of the human PSEN1 transgene supported the survival of PSEN-null embryos to the perinatal stage. However, presenilin deficiency in the kidney led to severe nephrogenesis defects and virtually no comma- or S-shaped bodies, or mature glomeruli were formed. We document that the mesenchyme was induced which could further progress to renal vesicles in the PSEN-null kidney, indicating that the presenilins are not essential for the inductive interactions and mesenchyme to epithelium transition. However, renal vesicles failed to pattern to form proximal tubules and glomerular epithelium. A presenilin-dependent, signaling-competent form of Notch1 was detected in mesenchymal derivatives but not in the ureteric buds of wild-type mice. Consistent with an obligatory role of presenilins in Notch processing and activation, the active form of Notch1 and its downstream target Hesr1were absent in the PSEN-null kidney. Importantly, sustained Notch1 signaling was required for the maintenance of Notch ligand Jag1 expression. These results identify presenilins as one determinant of renal vesicle patterning in the developing mouse kidney, and we hypothesize that they act through the Notch signaling pathway.
Publisher
The Company of Biologists
Subject
Developmental Biology,Molecular Biology
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