Biology:Polycystin cation channel family

From HandWiki
Short description: Group of membrane proteins that passively export cations out of a cell
C-terminal Cytosolic Domain of Polycystin-2
Identifiers
SymbolPKD2
PfamPF08016
InterProIPR013122
TCDB1.A.5
OPM superfamily8
OPM protein5mkf

The Polycystin Cation Channel (PCC) Family (TC# 1.A.5) consists of several transporters ranging in size from 500 to over 4000 amino acyl residues (aas) in length and exhibiting between 5 and 18 transmembrane segments (TMSs). This family is a constituent of the Voltage-Gated Ion Channel (VIC) Superfamily. These transporters generally catalyze the export of cations. A representative list of proteins belonging to the PCC family can be found in the Transporter Classification Database.[1]

Crystal Structures

There are a number of crystal structures available for members of the PCC family. Some of these include:

PKD1: PDB: 1B4R

Polycystic kidney disease 2-like 1 protein: PDB: 3TE3​, 4GIF

PKD2: PDB: 2KLD​, 2KLE​, 3HRN​, 3HRO​, 2KQ6​, 2Y4Q

Homologues

Human polycystin

Human polycystin 1 is a huge protein of 4303 amino acyl residues (aas). Its repeated leucine-rich (LRR) segment is found in many proteins. According to the UniProt description, polycystin 1 contains 16 polycystic kidney disease (PKD) domains, one LDL-receptor class A domain, one C-type lectin family domain, and 16-18 putative TMSs in positions between residues 2200 and 4100.[2] However, atomic force microscopy imaging has revealed the domain structure of polycystin-1.[3] It exhibits minimal sequence similarities, but similar domain organization and membrane topology with established cation channels such as the transient receptor potential (TRP) and voltage-gated ion channel (VIC) family proteins (TC# 1.A.4 and TC# 1.A.1, respectively). However, PSI-BLAST without iterations does not pick up these similarities. The PKD2L1-PKD1L3 complex perceives sour taste. Disruption of the PKD2-PKD1 complex, responsible for mechanosensation, leads to development of ADPKD (autosomal-dominant polycystic kidney disease).[4] Besides modulating channel activity and related signaling events, the CRDs (C-terminal regulatory domains) of PKD2 and PKD2L1 play a central role in channel oligomerization. These proteins appear to form trimers.[5]

Polycystin-L

Polycystin-L has been shown to be a cation (Na+, K+ and Ca2+) channel that is activated by Ca2+, while polycystin-2 has been characterized as a Ca2+-permeable cation-selective channel. Two members of the PCC family (polycystin 1 and 2; PKD1 and 2) are mutated in human autosomal dominant polycystic kidney disease, and polycystin-L, very similar and probably orthologous to PKD2, is deleted in mice with renal and retinal defects. PKD1 and 2 interact to form the non-selective cation channel in vitro, but PKD2 can form channels in the absence of any other associated protein. Polycystin-2 transports a variety of organic cations (dimethylamine, tetraethylammonium, tetrabutylammonium, tetrapropylammonium, tetrapentenyl ammonium). The channel diameter was estimated to be at least 1.1 Å.[6] Both are reported to be integral membrane proteins with 7-11 TMSs (PKD1) and 6 TMSs (PKD2), respectively. They share a homologous region of about 400 residues (residues 206-623 in PKD2; residues 3656-4052 in PKD1) which includes five TMSs of both proteins. This may well be the channel domain. PKD2 and polycystin-L have been shown to exhibit voltage-, pH- and divalent cation-dependent channel activity.[7][8] PKD1 may function primarily in regulation, both activating and stabilizing the polycystin-2 channel.[9]

Transient receptor potential proteins

Transient receptor potential (TRP) polycystin 2 and 3 (TRPP2 and 3) are homologous members of the TRP superfamily of cation channels but have different physiological functions. TRPP2 is part of a flow sensor, and is defective in autosomal dominant polycystic kidney disease and implicated in left-right asymmetry development. TRPP3 is implicated in sour tasting in bipolar cells of taste buds of the tongue and in the regulation of pH-sensitive action potential in neurons surrounding the central canal of the spinal cord. TRPP3 is present in both excitable and non-excitable cells in various tissues, such as retina, brain, heart, testis, and kidney.[10][11]

Mucolipin-1

The TRP-ML1 protein (Mucolipin-1) has been shown to be a lysosomal monovalent cation channel that undergoes inactivating proteolytic cleavage.[12] It shows greater sequence similarity to the transmembrane region of polycystin 2 than it does to members of the TRP-CC family (TC# 1.A.4). Therefore, it is included in the former family. Both the PCC and TRP-CC families are members of the VIC superfamily.

Alpha-actinin

Alpha-actinin is an actin-bundling protein known to regulate several types of ion channels. Planer lipid bilayer electrophysiology showed that TRPP3 exhibits cation channel activities that are substantially augmented by alpha-actinin. The TRPP3-alpha-actinin association was documented by co-immunoprecipitation using native cells and tissues, yeast two-hybrid, and in vitro binding assays.[11] TRPP3 is abundant in mouse brain where it associates with alpha-actinin-2. Alpha-actinin attaches TRPP3 to the cytoskeleton and up-regulates its channel function.

Physiological significance

Autosomal recessive polycystic kidney disease is caused by mutations in PKHD1, which encodes the membrane-associated receptor-like protein fibrocystin/polyductin (FPC) (Q8TCZ9, 4074aaa). FPC associates with the primary cilia of epithelial cells and co-localizes with the Pkd2 gene product polycystin-2 (PC2). Kim et al. (2008) have concluded that a functional and molecular interaction exists between FPC and PC2 in vivo.[13]

See also

References

  1. "1.A.5 The Polycystin Cation Channel (PCC) Family". http://www.tcdb.org/search/result.php?tc=1.A.5. 
  2. "P98161-PKD1 Human". https://www.uniprot.org/uniprotkb/P98161/entry. 
  3. "Atomic force microscopy imaging reveals the domain structure of polycystin-1". Biochemistry 51 (13): 2879–88. April 2012. doi:10.1021/bi300134b. PMID 22409330. 
  4. "Polycystin-1: function as a mechanosensor". The International Journal of Biochemistry & Cell Biology 42 (10): 1610–3. October 2010. doi:10.1016/j.biocel.2010.06.017. PMID 20601082. 
  5. "Identification of the structural motif responsible for trimeric assembly of the C-terminal regulatory domains of polycystin channels PKD2L1 and PKD2". The Biochemical Journal 429 (1): 171–83. July 2010. doi:10.1042/BJ20091843. PMID 20408813. 
  6. "Organic cation permeation through the channel formed by polycystin-2". The Journal of Biological Chemistry 280 (33): 29488–93. August 2005. doi:10.1074/jbc.M504359200. PMID 15961385. 
  7. "Voltage dependence and pH regulation of human polycystin-2-mediated cation channel activity". The Journal of Biological Chemistry 277 (28): 24959–66. July 2002. doi:10.1074/jbc.M105084200. PMID 11991947. 
  8. "Modulation of the human polycystin-L channel by voltage and divalent cations". FEBS Letters 525 (1–3): 71–6. August 2002. doi:10.1016/s0014-5793(02)03071-5. PMID 12163164. 
  9. "Polycystin-1 activates and stabilizes the polycystin-2 channel". The Journal of Biological Chemistry 278 (3): 1457–62. January 2003. doi:10.1074/jbc.M209996200. PMID 12407099. 
  10. "The TRPML3 Channel: From Gene to Function". Transient Receptor Potential Channels. Advances in Experimental Medicine and Biology. 704. 2011-01-01. pp. 229–37. doi:10.1007/978-94-007-0265-3_13. ISBN 978-94-007-0264-6. 
  11. 11.0 11.1 "Direct binding of alpha-actinin enhances TRPP3 channel activity". Journal of Neurochemistry 103 (6): 2391–400. December 2007. doi:10.1111/j.1471-4159.2007.04940.x. PMID 17944866. 
  12. "TRP-ML1 is a lysosomal monovalent cation channel that undergoes proteolytic cleavage". The Journal of Biological Chemistry 280 (52): 43218–23. December 2005. doi:10.1074/jbc.M508210200. PMID 16257972. 
  13. "Fibrocystin/polyductin modulates renal tubular formation by regulating polycystin-2 expression and function". Journal of the American Society of Nephrology 19 (3): 455–68. March 2008. doi:10.1681/ASN.2007070770. PMID 18235088. 

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