SMC4

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Structural maintenance of chromosomes protein 4 (SMC-4) also known as chromosome-associated polypeptide C (CAP-C) or XCAP-C homolog is a protein that in humans is encoded by the SMC4 gene.^[1][2][3] SMC-4 is a core subunit of condensin I and II, large protein complexes involved in high order chromosome organization,^[4] including condensation and segregation.^[5] SMC-4 protein is commonly associated with the SMC-2 protein, another protein complex within the SMC protein family. SMC-4 dimerizes with SMC-2, creating the flexible and dynamic structure of the condensin holocomplex.^[4] An over-expression of the SMC-4 protein is shown to impact carcinogenesis.^[6][7][5]

The primary 5 domain structure of SMC proteins is highly conserved among species. The basic structure of SMC proteins are characterized by a non-helical hinge group, separated by two anti-parallel α-helical coiled-coil domains, along with two Amino-terminal globular domains containing ATP hydrolytic sites, or nucleotide-binding motifs located at the C-terminus and N-terminus called the Walker A and Walker B motifs.^[8]

In eukaryotes, dimerization is mediated by the self-folding of the non-helical hinge group on the SMC protein. Dimerization occurs at the non-helical hinge group of SMC-4, which then associates with the non-helical hinge group of SMC-2, creating a V-shaped heterodimeric structure. the holocomplex of condensin contains the SMC-4 and SMC-2 heterodimer subunits, along with 3 other non-SMC subunits, CAP-D2, CAP-G, and CAP-H.^[5]

In the condensin holocomplex, a protein subunit called kleisin joins the C-terminus and N-terminus ATPase end domains of both SMC-4 and SMC-2 proteins. when the condensin holocomplex is bound with ATP at these end domains, the condensin will assume a "closed" conformation state.^[4] SMC-4 is a dynamic and flexible protein, allowing different domain components to occasionally interact with others. This is speculated to be involved in the mechanical ability of the complex when associated with chromosomes.^[4] In budding yeast, these interactions may result in open "O" appearances, or collapsed B-shaped states as a result of its dynamic ability.^[9]

The SMC-4 protein is associated with abnormal cell and tumor growth, and involved with migration and invasion. In general, the presence of over-expressed SMC-4 proteins is thought to be correlated with carcinogenesis.^[6]

It is found that an over-expression or down-regulation of the SMC-4 protein alters TGFβ/Smad signaling pathways in glioma cells. SMC-4-transduced glioma cells showed activation of the TGFβ/Smad signaling pathway which was not present in SMC-4 silenced glioma cells. This pathway was shown to be correlated with an "aggressive" behavioral phenotype in glioma cells. An over-expression of SMC-4 can induce a higher rate of proliferation, and ultimately increased invasive capability. A down-regulation of SMC-4 reduced this quality.^[6]

The SMC-4 protein is involved with normal lung development however, adenocarcinoma lung tissue shows an over-expression of SMC-4. additionally, SMC-4 may act as independent prognostic factor for carcinogenesis and lung adenocarcinoma.^[5]

Studies suggest that over-expression of the SMC-4 protein in human liver tissue may be correlated with progression of hepatocellular carcinoma.^[7]

• SMC4 human gene location in the UCSC Genome Browser.
• SMC4 human gene details in the UCSC Genome Browser.
• PDBe-KB provides an overview of all the structure information available in the PDB for Human Structural maintenance of chromosomes protein 4 (SMC4)
• PDBe-KB provides an overview of all the structure information available in the PDB for Mouse Structural maintenance of chromosomes protein 4 (SMC4)