4m9p
From Proteopedia
Crystal structure of the human filamin A Ig-like domains 3-5
Structural highlights
DiseaseFLNA_HUMAN Defects in FLNA are the cause of periventricular nodular heterotopia type 1 (PVNH1) [MIM:300049; also called nodular heterotopia, bilateral periventricular (NHBP or BPNH). PVNH is a developmental disorder characterized by the presence of periventricular nodules of cerebral gray matter, resulting from a failure of neurons to migrate normally from the lateral ventricular proliferative zone, where they are formed, to the cerebral cortex. PVNH1 is an X-linked dominant form. Heterozygous females have normal intelligence but suffer from seizures and various manifestations outside the central nervous system, especially related to the vascular system. Hemizygous affected males die in the prenatal or perinatal period.[1] [2] [3] [4] [5] Defects in FLNA are the cause of periventricular nodular heterotopia type 4 (PVNH4) [MIM:300537; also known as periventricular heterotopia Ehlers-Danlos variant. PVNH4 is characterized by nodular brain heterotopia, joint hypermobility and development of aortic dilation in early adulthood. Defects in FLNA are the cause of otopalatodigital syndrome type 1 (OPD1) [MIM:311300. OPD1 is an X-linked dominant multiple congenital anomalies disease mainly characterized by a generalized skeletal dysplasia, mild mental retardation, hearing loss, cleft palate, and typical facial anomalies. OPD1 belongs to a group of X-linked skeletal dysplasias known as oto-palato-digital syndrome spectrum disorders that also include OPD2, Melnick-Needles syndrome (MNS), and frontometaphyseal dysplasia (FMD). Remodeling of the cytoskeleton is central to the modulation of cell shape and migration. FLNA is a widely expressed protein that regulates re-organization of the actin cytoskeleton by interacting with integrins, transmembrane receptor complexes and second messengers. Males with OPD1 have cleft palate, malformations of the ossicles causing deafness and milder bone and limb defects than those associated with OPD2. Obligate female carriers of mutations causing both OPD1 and OPD2 have variable (often milder) expression of a similar phenotypic spectrum.[6] [7] Defects in FLNA are the cause of otopalatodigital syndrome type 2 (OPD2) [MIM:304120; also known as cranioorodigital syndrome. OPD2 is a congenital bone disorder that is characterized by abnormally modeled, bowed bones, small or absent first digits and, more variably, cleft palate, posterior fossa brain anomalies, omphalocele and cardiac defects. Defects in FLNA are the cause of frontometaphyseal dysplasia (FMD) [MIM:305620. FMD is a congenital bone disease characterized by supraorbital hyperostosis, deafness and digital anomalies.[8] [9] Defects in FLNA are the cause of Melnick-Needles syndrome (MNS) [MIM:309350. MNS is a severe congenital bone disorder characterized by typical facies (exophthalmos, full cheeks, micrognathia and malalignment of teeth), flaring of the metaphyses of long bones, s-like curvature of bones of legs, irregular constrictions in the ribs, and sclerosis of base of skull.[10] Defects in FLNA are the cause of X-linked congenital idiopathic intestinal pseudoobstruction (CIIPX) [MIM:300048. CIIPX is characterized by a severe abnormality of gastrointestinal motility due to primary qualitative defects of enteric ganglia and nerve fibers. Affected individuals manifest recurrent signs of intestinal obstruction in the absence of any mechanical lesion.[11] Defects in FLNA are the cause of FG syndrome type 2 (FGS2) [MIM:300321. FG syndrome (FGS) is an X-linked disorder characterized by mental retardation, relative macrocephaly, hypotonia and constipation.[12] Defects in FLNA are the cause of terminal osseous dysplasia (TOD) [MIM:300244. A rare X-linked dominant male-lethal disease characterized by skeletal dysplasia of the limbs, pigmentary defects of the skin and recurrent digital fibroma during infancy. A significant phenotypic variability is observed in affected females.[13] Defects in FLNA are the cause of cardiac valvular dysplasia X-linked (CVDX) [MIM:314400. A rare X-linked heart disease characterized by mitral and/or aortic valve regurgitation. The histologic features include fragmentation of collagenous bundles within the valve fibrosa and accumulation of proteoglycans, which produces excessive valve tissue leading to billowing of the valve leaflets.[14] Note=Defects in FLNA may be a cause of macrothrombocytopenia, a disorder characterized by subnormal levels of blood platelets. Blood platelets are abonormally enlarged. FunctionFLNA_HUMAN Promotes orthogonal branching of actin filaments and links actin filaments to membrane glycoproteins. Anchors various transmembrane proteins to the actin cytoskeleton and serves as a scaffold for a wide range of cytoplasmic signaling proteins. Interaction with FLNA may allow neuroblast migration from the ventricular zone into the cortical plate. Tethers cell surface-localized furin, modulates its rate of internalization and directs its intracellular trafficking (By similarity). Involved in ciliogenesis.[15] Publication Abstract from PubMedImmunoglobulin-like (Ig) domains are a widely expanded superfamily that acts as interaction motifs or as structural spacers in multi-domain proteins. Vertebrate filamins (FLNs), which are multifunctional actin binding proteins, consists of 24 Ig domains. We have recently discovered that in the C-terminal Rod 2 region of FLN, Ig domains interact with each other forming functional domain pairs, where the interaction with signaling and transmembrane proteins is mechanically regulated by weak actomyosin contraction forces. Here, we investigated if there are similar inter-domain interactions around domain 4 in the N-terminal Rod 1 region of FLN. Protein crystal structures revealed a new type of domain organization between domains 3, 4 and 5. In this module, domains 4 and 5 interact rather tightly whereas domain 3 has a partially flexible interface with domain 4. NMR peptide titration experiments showed that within the three domain module, domain 4 is capable for interaction with a peptide derived from platelet glycoprotein Ib. Crystal structure of FLN domains 4 and 5 in complex with the peptide revealed a typical beta sheet augmentation interaction observed for many FLN ligands. Domain 5 was found to stabilize domain 4, and this could provide a mechanism for the regulation of domain 4 interactions. A Novel Structural Unit in the N-Terminal Region of Filamins.,Sethi R, Seppala J, Tossavainen H, Ylilauri M, Ruskamo S, Pentikainen OT, Pentikainen U, Permi P, Ylanne J J Biol Chem. 2014 Jan 27. PMID:24469451[16] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. See AlsoReferences
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