DnaJ (Hsp40) homolog, subfamily C, member 5

PDB rendering based on 2ctw.
Symbols DNAJC5; CSP; DKFZp434N1429; DKFZp761N1221; DNAJC5A; FLJ00118; FLJ13070
External IDs OMIM611203 MGI892995 HomoloGene9631 GeneCards: DNAJC5 Gene
Species Human Mouse
Entrez 80331 13002
Ensembl ENSG00000101152 ENSMUSG00000000826
UniProt Q9H3Z4 Q921J3
RefSeq (mRNA) NM_025219 NM_016775.2
RefSeq (protein) NP_079495 NP_058055.1
Location (UCSC) Chr 20:
62.53 – 62.57 Mb
Chr 2:
181.26 – 181.29 Mb
PubMed search [1] [2]

DnaJ homolog subfamily C member 5, also known as cysteine string protein or CSP is a protein, that in humans encoded by the DNAJC5 gene.[1] It was first described in 1990.[2]



In humans, the gene is located on the long arm of chromosome 20 (20q13.33) on the Watson (positive strand). The gene is 40,867 bases in length and the encoded protein is has 198 amino acids with a predicted molecular weight of 22.149 kiloDaltons (kDa). The weight of the mature protein is 34kDa.

This gene is highly conserved and found both in invertebrates and vertebrates. In humans, a pseudogene of this gene is located on the short arm of chromosome 8.


The organisation of the protein is as follows:[3]

  • an N-terminus phosphorylation site for protein kinase A
  • a J domain (~70 amino acids)
  • a linker region
  • a cysteine motif consisting of 13–15 cysteines within a stretch of 25 amino acids. It is heavily palmitoylated in the cysteine string motif.
  • a less conserved C-terminal domain

Tissue distribution

This protein is abundant in neural tissue and displays a characteristic localization to synaptic and clathrin coated vesicles. It is also found on secretory vesicles in endocrine, neuroendocrine and exocrine cells. This protein makes up ~1% of the protein content of the synaptic vesicles.[4] DNAJC5 appears to have a role in stimulated exocytosis.[5]


The encoded protein is a member of the J protein family. These proteins function in many cellular processes by regulating the ATPase activity of 70 kDa heat shock proteins (Hsp70). DNAJC5 is a guanine nucleotide exchange factor for Gα proteins.[6] CSPα plays a role in membrane trafficking and protein folding, and has been shown to have anti-neurodegenerative properties. It is known to play a role in cystic fibrosis and Huntington's disease.[1]

This protein has been proposed as a key element of the synaptic molecular machinery devoted to the rescue of synaptic proteins that have been unfolded by activity dependent stress.[7][8] Syntaxin 1A, a plasma membrane SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) critical for neurotransmission, forms a complex with CSPα, a G protein and an N-type calcium channel. Huntingtin may be able displace both syntaxin 1A and CSPα from N-type channels.[9] CSP interacts with the calcium sensor protein synaptotagmin 9 via its linker domain.[10]

Huntingtin-interacting protein 14, a palmitoyl transferase, is required for exocytosis and targeting of CSP to synaptic vesicles. The palmitoyl residues are transferred to the cysteine residues. If these resides are mutated membrane targeting is reduced or lost.[11] The rat CSP forms a complex with Sgt (SGTA) and Hsc70 (HSPA8) located on the synaptic vesicle surface. This complex functions as an ATP-dependent chaperone that reactivates denatured substrates. Furthermore the Csp/Sgt/Hsc70 complex appears to be important for maintenance of normal synapses.[3]

Its expression may be increased with the use of lithium.[12] Quercetin promotes formation of stable CSPα-CSPα dimers.[13]


DNAJC5 has been shown to interact with the cystic fibrosis transmembrane conductance regulator.[14]

Clinical significance

Mutations in this gene may cause neuronal ceroid lipofuscinosis.[15]


  1. ^ a b "Entrez Gene: DNAJC5 DnaJ (Hsp40) homolog, subfamily C, member 5". http://www.ncbi.nlm.nih.gov/sites/entrez?Db=gene&Cmd=ShowDetailView&TermToSearch=80331. 
  2. ^ Zinsmaier KE, Hofbauer A, Heimbeck G, Pflugfelder GO, Buchner S, Buchner E (November 1990). "A cysteine-string protein is expressed in retina and brain of Drosophila". J. Neurogenet. 7 (1): 15–29. PMID 2129171. 
  3. ^ a b Tobaben S, Thakur P, Fernández-Chacón R, Südhof TC, Rettig J, Stahl B (September 2001). "A trimeric protein complex functions as a synaptic chaperone machine". Neuron 31 (6): 987–99. doi:10.1016/S0896-6273(01)00427-5. PMID 11580898. 
  4. ^ Benitez BA, Alvarado D, Cai Y, Mayo K, Chakraverty S, Norton J, Morris JC, Sands MS, Goate A, Cruchaga C (2011). "Exome-Sequencing Confirms DNAJC5 Mutations as Cause of Adult Neuronal Ceroid-Lipofuscinosis". PLoS ONE 6 (11): e26741. doi:10.1371/journal.pone.0026741. PMID 22073189. 
  5. ^ Ranjan R, Bronk P, Zinsmaier KE (February 1998). "Cysteine string protein is required for calcium secretion coupling of evoked neurotransmission in drosophila but not for vesicle recycling". J. Neurosci. 18 (3): 956–64. PMID 9437017. 
  6. ^ Bai L, Swayne LA, Braun JE (January 2007). "The CSPalpha/G protein complex in PC12 cells". Biochem. Biophys. Res. Commun. 352 (1): 123–9. doi:10.1016/j.bbrc.2006.10.178. PMID 17113038. 
  7. ^ Fernández-Chacón R, Wölfel M, Nishimune H, Tabares L, Schmitz F, Castellano-Muñoz M, Rosenmund C, Montesinos ML, Sanes JR, Schneggenburger R, Südhof TC (April 2004). "The synaptic vesicle protein CSP alpha prevents presynaptic degeneration". Neuron 42 (2): 237–51. PMID 15091340. 
  8. ^ Chandra S, Gallardo G, Fernández-Chacón R, Schlüter OM, Südhof TC (November 2005). "Alpha-synuclein cooperates with CSPalpha in preventing neurodegeneration". Cell 123 (3): 383–96. doi:10.1016/j.cell.2005.09.028. PMID 16269331. 
  9. ^ Swayne LA, Beck KE, Braun JE (September 2006). "The cysteine string protein multimeric complex". Biochem. Biophys. Res. Commun. 348 (1): 83–91. doi:10.1016/j.bbrc.2006.07.033. PMID 16875662. 
  10. ^ Boal F, Laguerre M, Milochau A, Lang J, Scotti PA (January 2011). "A charged prominence in the linker domain of the cysteine-string protein Cspα mediates its regulated interaction with the calcium sensor synaptotagmin 9 during exocytosis". FASEB J. 25 (1): 132–43. doi:10.1096/fj.09-152033. PMID 20847230. 
  11. ^ Chamberlain LH, Burgoyne RD (October 1998). "The cysteine-string domain of the secretory vesicle cysteine-string protein is required for membrane targeting". Biochem. J. 335 ( Pt 2): 205–9. PMC 1219770. PMID 9761715. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=1219770. 
  12. ^ Cordeiro ML, Umbach JA, Gundersen CB (June 2000). "Lithium ions enhance cysteine string protein gene expression in vivo and in vitro". J. Neurochem. 74 (6): 2365–72. PMID 10820197. 
  13. ^ Xu F, Proft J, Gibbs S, Winkfein B, Johnson JN, Syed N, Braun JE (2010). "Quercetin targets cysteine string protein (CSPalpha) and impairs synaptic transmission". PLoS ONE 5 (6): e11045. doi:10.1371/journal.pone.0011045. PMC 2883571. PMID 20548785. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2883571. 
  14. ^ Zhang H, Peters KW, Sun F, Marino CR, Lang J, Burgoyne RD, Frizzell RA (August 2002). "Cysteine string protein interacts with and modulates the maturation of the cystic fibrosis transmembrane conductance regulator". J. Biol. Chem. 277 (32): 28948–58. doi:10.1074/jbc.M111706200. PMID 12039948. 
  15. ^ Nosková L, Stránecký V, Hartmannová H, Přistoupilová A, Barešová V, Ivánek R, Hůlková H, Jahnová H, van der Zee J, Staropoli JF, Sims KB, Tyynelä J, Van Broeckhoven C, Nijssen PC, Mole SE, Elleder M, Kmoch S (August 2011). "Mutations in DNAJC5, encoding cysteine-string protein alpha, cause autosomal-dominant adult-onset neuronal ceroid lipofuscinosis". Am. J. Hum. Genet. 89 (2): 241–52. doi:10.1016/j.ajhg.2011.07.003. PMID 21820099. 

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