Podocin and MEC-2 bind cholesterol to regulate the activity of associated ion channels

Huber, Tobias B.; Schermer, Bernhard; Müller, Roman Ulrich; Höhne, Martin; Bartram, Malte P.; Calixto, Andrea; Hagmann, Henning; Reinhardt, Christian; Koos, Fabienne; Kunzelmann, Karl; Shirokova, Elena A.; Krautwurst, Dietmar; Harteneck, Christian; Simons, Matias; Pavenstädt, Hermann; Kerjaschki, Dontscho; Thiele, Christoph; Walz, Gerd; Chalfie, Martin; Benzing, Thomas

doi:10.1073/pnas.0607465103

Cited by 265 publications

(309 citation statements)

References 36 publications

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“…Podocin may serve two closely related functions: the recruitment and/or stabilization of nephrin at the podocyte foot process, and the augmentation of nephrin signaling, perhaps by organizing specialized nephrin-containing microdomains [22]. In lipid microdomains, podocin clusters and regulates the transient receptor calcium channel (TRPC)-6 [23] and it has been suggested that this regulation gives the slit diaphragm the ability to act as a mechanosensor that enables the podocyte to remodel its cytoskeleton and contract its foot process in response to mechanical stimuli [24]. Finally, TRPC-6 is a critical controller of actin cytoskeleton.…”

Section: The Podocyte’s Strength and Weakness: Its Actin Cytoskeletonmentioning

confidence: 99%

Podocyte Mitosis – A Catastrophe

Lasagni

Lazzeri²,

Shankland

et al. 2012

CMM

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Podocyte loss plays a key role in the progression of glomerular disorders towards glomerulosclerosis and chronic kidney disease. Podocytes form unique cytoplasmic extensions, foot processes, which attach to the outer surface of the glomerular basement membrane and interdigitate with neighboring podocytes to form the slit diaphragm. Maintaining these sophisticated structural elements requires an intricate actin cytoskeleton. Genetic, mechanic, and immunologic or toxic forms of podocyte injury can cause podocyte loss, which causes glomerular filtration barrier dysfunction, leading to proteinuria. Cell migration and cell division are two processes that require a rearrangement of the actin cytoskeleton; this rearrangement would disrupt the podocyte foot processes, therefore, podocytes have a limited capacity to divide or migrate. Indeed, all cells need to rearrange their actin cytoskeleton to assemble a correct mitotic spindle and to complete mitosis. Podocytes, even when being forced to bypass cell cycle checkpoints to initiate DNA synthesis and chromosome segregation, cannot complete cytokinesis efficiently and thus usually generate aneuploid podocytes. Such aneuploid podocytes rapidly detach and die, a process referred to as mitotic catastrophe. Thus, detached or dead podocytes cannot be adequately replaced by the proliferation of adjacent podocytes. However, even glomerular disorders with severe podocyte injury can undergo regression and remission, suggesting alternative mechanisms to compensate for podocyte loss, such as podocyte hypertrophy or podocyte regeneration from resident renal progenitor cells. Together, mitosis of the terminally differentiated podocyte rather accelerates podocyte loss and therefore glomerulosclerosis. Finding ways to enhance podocyte regeneration from other sources remains a challenge goal to improve the treatment of chronic kidney disease in the future.

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Section: The Podocyte’s Strength and Weakness: Its Actin Cytoskeletonmentioning

confidence: 99%

Podocyte Mitosis – A Catastrophe

Lasagni

Lazzeri²,

Shankland

et al. 2012

CMM

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“…Stomatin, podocin, MEC-2, UNC-24, and several other PHB-domain proteins have a hydrophobic [44] region N-terminally adjacent to the PHB domain [3,8,39,77]. This domain in MEC-2, stomatin, and podocin attaches the proteins to the inner leaflet of the plasma membrane [40].…”

Section: Proteins Required For Mechanosensationmentioning

confidence: 99%

“…In MEC-2, the domain is required for homooligomerization, localization to puncta, and amplification of MEC-4d currents in frog oocytes [98]. Recently, MEC-2 has also been shown to bind cholesterol; this binding requires the PHB domain and five amino acids in the adjacent hydrophobic region [40]. In HEK 293T cells, expression of MEC-2 can bind and recruit cholesterol to rat αENaC (a DEG/ENaC protein whose TM2 domain can substitute for that of MEC-4 in vivo [36]), and MEC-2 probably plays a similar role in C. elegans touch receptor neurons.…”

Section: Proteins Required For Mechanosensationmentioning

confidence: 99%

“…In HEK 293T cells, expression of MEC-2 can bind and recruit cholesterol to rat αENaC (a DEG/ENaC protein whose TM2 domain can substitute for that of MEC-4 in vivo [36]), and MEC-2 probably plays a similar role in C. elegans touch receptor neurons. While cholesterol is not required for MEC-2 multimerization or association with DEG/ENaC proteins, gentle touch sensitivity in worms is dependent on sterols [40]. The PHB domain of UNC-24 has not been tested for the ability to bind cholesterol, but it is necessary for the association of UNC-24 with other channel subunits [98].…”

Section: Proteins Required For Mechanosensationmentioning

confidence: 99%

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Touch sensitivity in Caenorhabditis elegans

Bounoutas

Chalfie

2007

Pflugers Arch - Eur J Physiol

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The nematode Caenorhabditis elegans was the first organism for which touch insensitive mutants were obtained. The study of the genes defective in these mutants has led to the identification of components of a mechanosensory complex needed for specific cells to sense gentle touch to the body. Multiple approaches using genetics, cell biology, biochemistry, and electrophysiology have characterized a channel complex, containing two DEG/ENaC pore-forming subunits and several other proteins, that transduces the touch response. Other mechanical responses, sensed by other cells using a variety of other components, are less well understood in C. elegans. Many of these other senses may use TRP channels, although DEG/ENaC channels have also been implicated.

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“…In mice and humans, TRPC6 protein is expressed in kidney podocytes in close proximity to the filtration slits of the glomerular filter. Recent studies support the notion that TRPC6-mediated calcium signaling contributes to the maintenance of the glomerular slit diaphragm and the regulation of glomerular permselectivity (Huber et al, 2006). TRPC6 knockout mice display defective vasomotor control and a sensitized myogenic response, suggesting an important role in smooth muscle contractility (Dietrich et al 2005, Weissmann et al, 2006.…”

Section: Nih Public Accessmentioning

confidence: 76%

Expression of trpC1 and trpC6 orthologs in zebrafish

Möller

Mangos

Drummond

et al. 2008

Gene Expression Patterns

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Transient receptor potential (TRP) genes encode subunits that form cation-selective ion channels in a variety of organisms and cell types. TRP channels serve diverse functions ranging from thermal, tactile, taste, and osmolar sensing to fluid flow sensing. TRPC1 and TRPC6 belong to the TRPC subfamily, members of which are thought to contribute to several cellular events such as regulated migration of neuronal dendrites, contractile responses of smooth muscle cells and maintenance of the structural integrity of kidney podocytes. Pathogenic roles have been suggested for TRPC1 in asthma and chronic obstructive pulmonary disease, and TRPC6 dysfunction was recently linked to proteinuric kidney disease. To explore the potential roles for TRPC channels in zebrafish organ function, we cloned zebrafish trpC1 and trpC6 cDNAs, and investigated their expression during zebrafish development. We detected trpC1 expression in the head, in cells surrounding the outflow tract of the heart, and in the ganglion cells as well as the inner nuclear layer of the eye. trpC6 expression was detected in the head, pectoral fins, aortic endothelial cells, and gastrointestinal smooth muscle cells. Our results point to roles of TRPC channels in several tissues during zebrafish development, and suggest that the zebrafish may be a suitable model system to study the pathophysiology of TRPC1 and TRPC6 in specific cell types. KeywordsTransient receptor potential; ion channel; smooth muscle; in situ hybridization Results and DiscussionTransient receptor potential (TRP) genes are widely expressed in a number of organs and cell types throughout the species (Ramsey et al., 2006). Since the discovery of the first TRP channel in Drosophila (Montell et al., 1985), encoded by the gene trp, 27 structurally related TRP proteins in humans and more than 60 orthologs in other species including flies, worms, and mice have been identified. Together they form the TRP superfamily, which is subdivided into the TRPC, TRPV, TRPM, TRPP, TRPN, and TRPML subfamilies (Montell, 2005).All TRP proteins have six predicted transmembrane segments, intracellular N-and C-termini, and share highly conserved motifs within and downstream of the putative channel pore domain. TRP channels have been shown to mediate receptor-operated calcium entry and are also candidate channels for store-operated calcium entry. They contribute to signaling pathways Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. (Clapham, 2003). NIH Public AccessIn zebrafish, five TRP channel genes have thus far been described. trpM7 was identified as the gene defectiv...

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Podocin and MEC-2 bind cholesterol to regulate the activity of associated ion channels

Cited by 265 publications

References 36 publications

Podocyte Mitosis – A Catastrophe

Podocyte Mitosis – A Catastrophe

Touch sensitivity in Caenorhabditis elegans

Expression of trpC1 and trpC6 orthologs in zebrafish

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