Mothers against decapentaplegic homolog 4

1DD1, 1G88, 1MR1, 1U7F, 1U7V, 1YGS, 5MEY, 5MEZ, 5MF0408917128ENSG00000141646ENSMUSG00000024515Q13485P97471NM_005359NM_008540NM_001364967NM_001364968NP_005350NP_032566NP_001351896NP_001351897SMAD4, also called SMAD family member 4, Mothers against decapentaplegic homolog 4, or DPC4 (Deleted in Pancreatic Cancer-4) is a highly-conserved protein present in all metazoans. It belongs to the SMAD family of transcription factor proteins, which act as mediators of TGF-β signal transduction. The TGFβ family of cytokines regulates critical processes during the lifecycle of metazoans, with important roles during embryo development, tissue homeostasis, regeneration, and immune regulation. SMAD4, also called SMAD family member 4, Mothers against decapentaplegic homolog 4, or DPC4 (Deleted in Pancreatic Cancer-4) is a highly-conserved protein present in all metazoans. It belongs to the SMAD family of transcription factor proteins, which act as mediators of TGF-β signal transduction. The TGFβ family of cytokines regulates critical processes during the lifecycle of metazoans, with important roles during embryo development, tissue homeostasis, regeneration, and immune regulation. SMAD 4 belongs to the co-SMAD group, the second class of the SMAD family. SMAD4 is the only known co-SMAD in most metazoans. It also belongs to the Darwin family of proteins that modulate members of the TGFβ protein superfamily, a family of proteins that all play a role in the regulation of cellular responses. Mammalian SMAD4 is a homolog of the Drosophila protein 'Mothers against decapentaplegic' named Medea. SMAD4 interacts with R-Smads, such as SMAD2, SMAD3, SMAD1, SMAD5 and SMAD8 (also called SMAD9) to form heterotrimeric complexes. Once in the nucleus, the complex of SMAD4 and two R-SMADS binds to DNA and regulates the expression of different genes depending on the cellular context. Intracellular reactions involving SMAD4 are triggered by the binding, on the surface of the cells, of growth factors from the TGFβ family. The sequence of intracellular reactions involving SMADS is called the SMAD pathway or the transforming growth factor beta (TGF-β) pathway since the sequence starts with the recognition of TGF-β by cells. In mammals, SMAD4 is coded by a gene located on chromosome 18. In humans, the SMAD4 gene contains 54 829 base pairs and is located from pair n° 51,030,212 to pair 51,085,041 in the region 21.1 of the chromosome 18. SMAD4 is a 552 amino-acid polypeptide with a molecular weight of 60.439 Da. SMAD4 has two functional domains known as MH1 and MH2. The complex of two SMAD3 (or of two SMAD2) and one SMAD4 binds directly to DNA though interactions of their MH1 domains. These complexes are recruited to sites throughout the genome by cell lineage-defining transcription factors (LDTFs) that determine the context-dependent nature of TGF-β action. Early insights into the DNA binding specificity of Smad proteins came from oligonucleotide binding screens, which identified the palindromic duplex 5’–GTCTAGAC–3’ as a high affinity binding sequence for SMAD3 and SMAD4 MH1 domains. Other motifs have also been identified in promoters and enhancers. These additional sites contain the CAGCC motif and the GGC(GC)|(CG) consensus sequences, the latter also known as 5GC sites. The 5GC-motifs are highly represented as clusters of sites, in SMAD-bound regions genome-wide. These clusters can also contain CAG(AC)|(CC) sites. SMAD3/SMAD4 complex also binds to the TPA-responsive gene promoter elements, which have the sequence motif TGAGTCAG. The first structure of SMAD4 bound to DNA was the complex with the palindromic GTCTAGAC motif. Recently, the structures of SMAD4 MH1 domain bound to several 5GC motifs have also been determined. In all complexes, the interaction with the DNA involves a conserved β-hairpin present in the MH1 domain. The hairpin is partially flexible in solution and its high degree of conformational flexibility allows recognition of the different 5-bp sequences. Efficient interactions with GC-sites occur only if a G nucleotide is located deep in the major grove, and establishes hydrogen bonds with the guanidinium group of Arg81. This interaction facilitates a complementary surface contact between the Smad DNA-binding hairpin and the major groove of the DNA. Other direct interactions involve Lys88 and Gln83. The X-ray crystal structure of the Trichoplax adhaerens SMAD4 MH1 domains bound to the GGCGC motif indicates a high conservation of this interaction in metazoans. The MH2 domain, corresponding to the C-terminus, is responsible for receptor recognition and association with other SMADs. It interacts with the R-SMADS MH2 domain and forms heterodimers and heterotrimers. Some tumor mutations detected in SMAD4 enhance interactions between the MH1 and MH2 domains. SMADs are highly conserved across species, especially in the N terminal MH1 domain and the C terminal MH2 domain.The SMAD proteins are homologs of both the Drosophila protein MAD and the C. elegans protein SMA. The name is a combination of the two. During Drosophila research, it was found that a mutation in the gene MAD in the mother repressed the gene decapentaplegic in the embryo. The phrase 'Mothers against' was added, since mothers often form organizations opposing various issues, e.g. Mothers Against Drunk Driving (MADD), reflecting 'the maternal-effect enhancement of dpp'; and based on a tradition of unusual naming within the research community. SMAD4 is also known as DPC4, JIP or MADH4.