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Neural Cell Adhesion Molecule (NCAM, also the cluster of differentiation CD56) is a homophilic binding glycoprotein expressed on the surface of neurons, glia, skeletal muscle and natural killer cells. NCAM has been implicated as having a role in cell–cell adhesion,[1] neurite outgrowth, synaptic plasticity, and learning and memory.

Forms, domains and homophilic binding[]

NCAM is a glycoprotein of Immunoglobulin(Ig)superfamily. At least 27 alternatively spliced NCAM mRNAs are produced, giving a wide diversity of NCAM isoforms.[2] The three main isoforms of NCAM vary only in their cytoplasmic domain:

  • NCAM-120kDa (GPI anchored)
  • NCAM-140kDa (short cytoplasmic domain)
  • NCAM-180kDa (long cytoplasmic domain)

The extracellular domain of NCAM consists of five immunoglobulin-like (Ig) domains followed by two fibronectin type III (FNIII) domains. The different domains of NCAM have been shown to have different roles, with the Ig domains being involved in homophilic binding to NCAM, and the FNIII domains being involved signaling leading to neurite outgrowth.

Homophilic binding occurs between NCAM molecules on opposing surfaces (trans-) and NCAM molecules on the same surface (cis-)1. There is much controversy as to how exactly NCAM homophilic binding is arranged both in trans- and cis-. Current models suggest trans- homophilic binding occurs between two NCAM molecules binding antiparallel between all five Ig domains or just IgI and IgII. cis- homophilic binding is thought to occur by interactions between both IgI and IgII, and IgI and IgIII, forming a higher order NCAM multimer. Both cis- and trans- NCAM homophilic binding have been shown to be important in NCAM “activation” leading to neurite outgrowth.

Minor exons[]

Another layer of complexity is created by the insertion of other "minor" exons in the NCAM transcript. The two most notable are:

  • the VASE (VAriable domain Spliced Exon) exon which is thought to correlate with an inhibition of the neurite outgrowth promoting properties of NCAM.
  • the MSD (Muscle Specific Domain), which is thought to play a positive role in myoblast fusion.[3] In skeletal muscle it is found in all three NCAM isoforms, increasing their MW, giving NCAM-125, NCAM-145, and NCAM-185 isoforms, but is most commonly found in the NCAM-125 isoform.[3]

Posttranslational modification[]

NCAM exhibits glycoforms as it can be posttranslationally modified by the addition of polysialic acid (PSA) to the fifth Ig domain, which is thought to abrogate its homophilic binding properties and can lead to reduced cell adhesion important in cell migration and invasion. PSA has been shown to be critical in learning and memory. Removal of PSA from NCAM by the enzyme endoneuraminidase (EndoN) has been shown to abolish long-term potentiation (LTP) and long-term depression (LTD).[4][5][6]

Function[]

NCAM is thought to signal to induce neurite outgrowth via the Fibroblast growth factor receptor (FGFR) and act upon the p59Fyn signaling pathway.

Pathology[]

In anatomic pathology, pathologists make use of CD56 immunohistochemistry to recognize certain tumors.

  • Tumors that are CD56-positive are myeloma, myeloid leukemia, neuroendocrine tumors, Wilms' tumor, neuroblastoma, NK/T cell lymphomas, pancreatic acinar cell carcinoma, pheochromocytoma, paraganglioma, small cell lung carcinoma, and the Ewing's Sarcoma Family of Tumors.

Anti-NCAM therapy[]

NCAM has been used as a target molecule for experimental antibody-based immunotherapy. Successful radioimmunolocalisation of metastases was demonstrated after giving injections of NCAM-binding 123J-UJ13a or 131J-UJ13a radioimmunoconjugates to children with neuroblastoma. Patients with small cell lung cancer were treated with the anti-NCAM immunotoxine huN901-DM1 in two different clinical studies, revealing acceptable toxicity and signs of clinical response.[7]

References[]

  1. Pathology Outlines
  2. Reyes AA, Small SJ, Akeson R. (1991). At least 27 alternatively spliced forms of the neural cell adhesion molecule mRNA are expressed during rat heart development. Mol Cell Biol. 11 (3): 1654–61.
  3. 3.0 3.1 Suzuki M, Angata K, Nakayama J, Fukuda M. (2003). Polysialic acid and mucin type o-glycans on the neural cell adhesion molecule differentially regulate myoblast fusion. J Biol Chem. 278 (49): 49459–68.
  4. Becker, C. G., Artola, A., Gerardy-Schahn, R., Becker, T., Welzl, H., and Schachner, M. (1996). The polysialic acid modification of the neural cell adhesion molecule is involved in spatial learning and hippocampal long-term potentiation. J Neurosci Res. 45 (2): 143–52.
  5. Stoenica L, Senkov O, Gerardy-Schahn R, Weinhold B, Schachner M, Dityatev A. (2006). In vivo synaptic plasticity in the dentate gyrus of mice deficient in the neural cell adhesion molecule NCAM or its polysialic acid. Eur J Neurosci. 23 (9): 2255–64.
  6. Senkov O, Sun M, Weinhold B, Gerardy-Schahn R, Schachner M, Dityatev A. (2006). Polysialylated neural cell adhesion molecule is involved in induction of long-term potentiation and memory acquisition and consolidation in a fear-conditioning paradigm. J Neurosci. 26 (42): 10888–109898.
  7. Jensen M, Berthold F. (2007). Targeting the neural cell adhesion molecule in cancer. Cancer Lett. 258 (1): 9–21.

External links[]

Template:PDB Gallery

Template:Clusters of differentiation by lineage Template:Cell adhesion molecules


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