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Noel S. Murcia, William E. Sweeney, Ellis D. Avner 

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Presentation on theme: "Noel S. Murcia, William E. Sweeney, Ellis D. Avner "— Presentation transcript:

1 New insights into the molecular pathophysiology of polycystic kidney disease 
Noel S. Murcia, William E. Sweeney, Ellis D. Avner  Kidney International  Volume 55, Issue 4, Pages (April 1999) DOI: /j x Copyright © 1999 International Society of Nephrology Terms and Conditions

2 Figure 1 A speculative model of intracellular signaling pathways in polycystic kidney disease (PKD). This is a representation of the intracellular signaling pathways that may be regulated by the polycystin complex. These pathways including cell adhesion, cell–matrix interactions, cytoskeletal and microtubular dynamics, transcriptional and cell cycle regulation. The common phenotype of PKD, associated with mutations in PKD1, PKD2, or Tg737, may result from disruption of the polycystin complex and subsequent deregulation of downstream pathways. The EGFR and cadherins associate with β-catenin (β), α-catenin (α), and p120-catenin (p120), which provide attachments to the actin cytoskeleton. Tg737, like β-catenin, may be linked to the actin cytoskeleton through interactions with α-catenin and p120-catenin. The polycystin complex is composed of Tg737, polycystin 1 (PC1), and polycystin 2 (PC2) through their heterodimeric interactions in separate binding domains. Tg737 may link this complex to the actin cytoskeleton through interactions with catenins. By binding to the as yet unidentified polycystin 1 ligand, there may be changes in the intracellular Ca2+ concentrations through PC2 calcium channel activity and release of Tg737. These responses, coupled with other as yet unidentified protein–protein interactions, may initiate a signal transduction cascade, which ultimately leads to transcription regulation of genes, such as AP-1, and regulation of epithelial cell biology. Release of Tg737 from the polycystin complex may induce cytoskeletal rearrangements and alter the intracellular dynamics of Tg737 protein–protein interactions. Free Tg737 may influence the intracellular balance of β-catenin by competing for α-catenin and p120-catenin and thus altering the distribution of β-catenin between free pools, complexes with APC, GSK3β (GSK) and conductin, or complexes with TCF/LEF-1 (TCF). Also, the release of APC from the β-catenin complex may alter microtubule dynamics. Tg737 may also potentiate gene regulation with HNF4 and regulate EGFR turnover through Tg737/Snx-1 (Snx) interactions. Alterations in the dynamics of these protein–protein interactions may alter epithelial cell biochemistry, leading to abnormal differentiation, proliferation, and polarity. Kidney International  , DOI: ( /j x) Copyright © 1999 International Society of Nephrology Terms and Conditions

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