Clusterin is a protein that in humans is encoded by the CLU gene on chromosome 8. CLU is an extracellular molecular chaperone which binds to misfolded proteins in body fluids to neutralise their toxicity and mediate their cellular uptake by receptor-mediated endocytosis. Once internalised by cells, complexes between CLU and misfolded proteins are trafficked to lysosomes where they are degraded. CLU is involved in many diseases including neurodegenerative diseases, cancers, inflammatory diseases, and aging.
Structure
The CLU gene contains nine exons and a variety of mRNA isoforms can be detected, although most of these are only ever expressed at very low levels (< 0.3% of the total). The full-length mRNA encoding the secreted isoform is by far the dominant species transcribed. Secreted CLU (apolipoprotein J) is an approximately 60 kDa disulfide-linked heterodimeric glycoprotein which migrates in SDS-PAGE with an apparent molecular mass of 75-80 kDa. Mature CLU is composed of disulfide-linked α- and β-chains. Although multiple previous publications proposed the existence of N-terminally truncated CLU protein isoforms in different cell compartments, recent work has highlighted the lack of direct evidence for this and shown that the full-length CLU polypeptide, with variable levels of glycosylation (and hence variable apparent mass), can translocate from the ER/Golgi to the cytosol and nucleus during stress.
Function
Clusterin was first identified in ram rete testis fluid where it was shown to elicit in vitro clustering of rat Sertoli cells and erythrocytes, hence its name.
CLU has functional similarities to members of the small heat shock protein family and is thus a molecular chaperone. Unlike most other chaperone proteins, which aid intracellular proteins, CLU is trafficked through the ER/Golgi before normally being secreted. Within the secretory system, CLU has been suggested to facilitate the folding of secreted proteins in an ATP-independent way.
Subsequent studies found elevated clusterin (CLU) protein levels in the blood of individuals with Alzheimer's disease, and these levels were correlated with faster cognitive decline. However, increased CLU levels did not reliably predict the onset of the disease.
CLU may also play a role in other neurodegenerative diseases, such as Huntington disease.