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Literature DB >> 12946628

Role of polycystins in renal tubulogenesis.

Abstract

Every day, human renal tubules process 140 l of glomerular filtrate into 1 l of urine. They accomplish this by the coordinated function of distinct cell types occupying specific positions along the tubules. This precisely defined structure requires tight regulation of morphogenesis. A group of disorders termed polycystic kidney disease (PKD) is characterized by altered tubular morphology. Mutating genes involved in PKD results in renal tubules that either fail to form properly or 'forget' how to maintain their 'correct' diameter. Study of PKD proteins will elucidate the process of renal tubular morphogenesis and guide the development of therapies. Here, we focus on insights provided by study of the most common form of PKD, autosomal dominant PKD.

Entities: Chemical

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Year: 2003 PMID： 12946628 DOI： 10.1016/s0962-8924(03)00169-7

Source DB: PubMed Journal: Trends Cell Biol ISSN： 0962-8924 Impact factor: 20.808

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Cited

41 in total

Review 1. Tube morphogenesis: closure, but many openings remain.

Authors: W James Nelson
Journal: Trends Cell Biol Date: 2003-12 Impact factor: 20.808

Review 2. Axonemal positioning and orientation in three-dimensional space for primary cilia: what is known, what is assumed, and what needs clarification.

Authors: Cornelia E Farnum; Norman J Wilsman
Journal: Dev Dyn Date: 2011-11 Impact factor: 3.780

3. Congenital disorders of glycosylation type I: a rare but new cause of hyperechoic kidneys in infants and children due to early microcystic changes.

Authors: Lucie Hertz-Pannier; Michele Déchaux; Martine Sinico; Sophie Emond; Valerie Cormier-Daire; Jean-Marie Saudubray; Francis Brunelle; Patrick Niaudet; Nathalie Seta; Pascale de Lonlay
Journal: Pediatr Radiol Date: 2005-11-22

Review 4. Advances in early kidney specification, development and patterning.

Authors: Gregory R Dressler
Journal: Development Date: 2009-12 Impact factor: 6.868

Review 5. Transient receptor potential channelopathies.

Authors: Bernd Nilius; Grzegorz Owsianik
Journal: Pflugers Arch Date: 2010-02-04 Impact factor: 3.657

6. Nephrocystin-1 forms a complex with polycystin-1 via a polyproline motif/SH3 domain interaction and regulates the apoptotic response in mammals.

Authors: Claas Wodarczyk; Gianfranco Distefano; Isaline Rowe; Massimiliano Gaetani; Barbara Bricoli; Mordi Muorah; Andrea Spitaleri; Valeria Mannella; Piero Ricchiuto; Monika Pema; Maddalena Castelli; Ariel E Casanova; Luca Mollica; Manuela Banzi; Manila Boca; Corinne Antignac; Sophie Saunier; Giovanna Musco; Alessandra Boletta
Journal: PLoS One Date: 2010-09-14 Impact factor: 3.240

7. Polycystin-1 C-terminal cleavage is modulated by polycystin-2 expression.

Authors: Claudia A Bertuccio; Hannah C Chapin; Yiqiang Cai; Kavita Mistry; Veronique Chauvet; Stefan Somlo; Michael J Caplan
Journal: J Biol Chem Date: 2009-06-02 Impact factor: 5.157

8. A novel mouse model reveals that polycystin-1 deficiency in ependyma and choroid plexus results in dysfunctional cilia and hydrocephalus.

Authors: Claas Wodarczyk; Isaline Rowe; Marco Chiaravalli; Monika Pema; Feng Qian; Alessandra Boletta
Journal: PLoS One Date: 2009-09-23 Impact factor: 3.240

9. The dynamic cilium in human diseases.

Authors: Anna D'Angelo; Brunella Franco
Journal: Pathogenetics Date: 2009-05-13

10. Emerging evidence of a link between the polycystins and the mTOR pathways.

Authors: Alessandra Boletta
Journal: Pathogenetics Date: 2009-10-28