Phosphatase and actin regulator 1
Phosphatase and actin regulator 1 (PHACTR1) is a protein that in humans is encoded by the PHACTR1 gene on chromosome 6.[5] It is most significantly expressed in the globus pallidus of the brain.[6] PHACTR1 is an actin and protein phosphatase 1 (PP1) binding protein that binds actin and regulates the reorganization of the actin cytoskeleton.[7] This protein has been associated with coronary artery disease and migraines through genome-wide association studies.[8][9] The PHACTR1 gene also contains one of 27 SNPs associated with increased risk of coronary artery disease.[9]
Structure
Gene
The PHACTR1 gene resides on chromosome 6 at the band 6p24.1 and includes 19 exons.[5] This gene produces 2 isoforms through alternative splicing.[10]
Protein
PHACTR1 is a member of the phosphatase and actin regulator family and contains 4 RPEL repeats, three of which reside at the C-terminal and bind three actin monomers.[10] PHACTR1 binds PP1 in the region containing these RPEL repeats. PHACTR1 wraps around PP1 in a similar way to other PP1 cofactors using a non-canonical RVxF motif, a ϕϕ motif, an Arg motif and a Trp motif. PHACTR1-PP1 complex is an active holophosphatase that binds and dephosphorylates substrates in sequence-denpendent manner.[11]
PHACTR1 is also predicted to contain 8 PKA phosphorylation sites and 7 PKC phosphorylation sites found near the RPEL repeats.[12]
Function
PHACTR1 is a PP1 binding protein, which is reported to be highly expressed in brain and which controls PP1 activity and F-actin remodeling.[13] PHACTR1 can be induced by NRP and VEGF through NRP-1 and VEGF-R1 receptors to control tubulogenesis, actin polymerization, and lamellipodial dynamics.[14] Through this function, PHACTR1 is suggested to play a role in cell motility and vascular morphogenesis.[15] Meanwhile, suppression of PHACTR1 increases expression of death cell receptors, leading to extrinsic apoptosis.[13]
The PHACTR1 locus is commonly identified in multiple genome-wide association studies investigating coronary artery disease and myocardial infarction (MI). However, little is known about the function of PHACTR1 in the heart.[15]
Clinical significance
Upregulation of PHACTR1 by transforming growth factor (TGF)-β has been described in breast cancer cell lines, potentially pointing to a connection with the TGF-β signaling pathway, which is also implicated in genetic predisposition to migraines and has a key role in Marfan and Loeys-Dietz syndromes, two inherited connective tissue disorders causing aortic dissection.[16][17]
In humans, genome-wide association studies have linked PHACTR1 to coronary artery disease.[8] Considering that arterial calcification is a well-known risk factor for coronary artery disease and myocardial infarction, one study tested ~2.5 million SNPs for an association with coronary artery calcification and aortic calcification in 2620 male individuals who were current or former heavy smokers and underwent chest CT scans in the NELSON trial. No SNPs were associated with aortic calcification on a genome-wide scale. The 9p21 locus was significantly associated with coronary artery calcification (rs1537370). Subsequently, two loci at ADAMTS7 (rs3825807) and at PHACTR1 (rs12526453) showed a nominally significant association with coronary artery calcification and an increased degree of arterial calcification.[8]
Clinical marker
Additionally, a multi-locus genetic risk score study based on a combination of 27 loci, including the PHACTR1 gene, identified individuals at increased risk for both incident and recurrent coronary artery disease events, as well as an enhanced clinical benefit from statin therapy. The study was based on a community cohort study (the Malmo Diet and Cancer study) and four additional randomized controlled trials of primary prevention cohorts (JUPITER and ASCOT) and secondary prevention cohorts (CARE and PROVE IT-TIMI 22).[18]
Another genome-wide association study in 2,326 clinic-based German and Dutch individuals with migraine without aura identified that PHACTR1 (together with ASTN2) as susceptibility loci for migraine without aura, thereby expanding our knowledge of this debilitating neurological disorder.[9][19][20]
In a genome-wide association meta-analysis, PHACTR1 was also identified as a potential key driver of spontaneous coronary artery dissection (SCAD). The study examined data from nearly 2000 SCAD patients and found PHACTR1 and 15 other genes are responsible for subtle genetic changes to SCAD patients blood vessels, increasing the risk of a spontaneous bleed or tear in the wall of the arteries in the heart.[21]
References
- ^ a b c GRCh38: Ensembl release 89: ENSG00000112137 – Ensembl, May 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000054728 – Ensembl, May 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ a b "Entrez Gene: Phosphatase and actin regulator 1". Retrieved 2013-09-10.
- ^ "BioGPS - your Gene Portal System". biogps.org. Retrieved 2016-10-10.
- ^ Okoturo-Evans O, Dybowska A, Valsami-Jones E, Cupitt J, Gierula M, Boobis AR, Edwards RJ (2013-01-01). "Elucidation of toxicity pathways in lung epithelial cells induced by silicon dioxide nanoparticles". PLOS ONE. 8 (9): e72363. Bibcode:2013PLoSO...872363O. doi:10.1371/journal.pone.0072363. PMC 3762866. PMID 24023737.
- ^ a b c van Setten J, Isgum I, Smolonska J, Ripke S, de Jong PA, Oudkerk M, et al. (June 2013). "Genome-wide association study of coronary and aortic calcification implicates risk loci for coronary artery disease and myocardial infarction". Atherosclerosis. 228 (2): 400–405. doi:10.1016/j.atherosclerosis.2013.02.039. PMID 23561647.
- ^ a b c Freilinger T, Anttila V, de Vries B, Malik R, Kallela M, Terwindt GM, et al. (June 2012). "Genome-wide association analysis identifies susceptibility loci for migraine without aura". Nature Genetics. 44 (7): 777–782. doi:10.1038/ng.2307. PMC 3773912. PMID 22683712.
- ^ a b "PHACTR1 - Phosphatase and actin regulator 1 - Homo sapiens (Human) - PHACTR1 gene & protein". www.uniprot.org. Retrieved 2016-10-10.
- ^ Fedoryshchak RO, Přechová M, Butler AM, Lee R, O'Reilly N, Flynn HR, et al. (September 2020). "Molecular basis for substrate specificity of the Phactr1/PP1 phosphatase holoenzyme". eLife. 9: e61509. doi:10.7554/eLife.61509. PMC 7599070. PMID 32975518.
- ^ Allen PB, Greenfield AT, Svenningsson P, Haspeslagh DC, Greengard P (May 2004). "Phactrs 1-4: A family of protein phosphatase 1 and actin regulatory proteins". Proceedings of the National Academy of Sciences of the United States of America. 101 (18): 7187–7192. Bibcode:2004PNAS..101.7187A. doi:10.1073/pnas.0401673101. PMC 406487. PMID 15107502.
- ^ a b Jarray R, Allain B, Borriello L, Biard D, Loukaci A, Larghero J, et al. (October 2011). "Depletion of the novel protein PHACTR-1 from human endothelial cells abolishes tube formation and induces cell death receptor apoptosis". Biochimie. 93 (10): 1668–1675. doi:10.1016/j.biochi.2011.07.010. PMID 21798305.
- ^ Allain B, Jarray R, Borriello L, Leforban B, Dufour S, Liu WQ, et al. (January 2012). "Neuropilin-1 regulates a new VEGF-induced gene, Phactr-1, which controls tubulogenesis and modulates lamellipodial dynamics in human endothelial cells". Cellular Signalling. 24 (1): 214–223. doi:10.1016/j.cellsig.2011.09.003. PMID 21939755.
- ^ a b Reschen ME, Lin D, Chalisey A, Soilleux EJ, O'Callaghan CA (July 2016). "Genetic and environmental risk factors for atherosclerosis regulate transcription of phosphatase and actin regulating gene PHACTR1". Atherosclerosis. 250: 95–105. doi:10.1016/j.atherosclerosis.2016.04.025. PMC 4917897. PMID 27187934.
- ^ Fils-Aimé N, Dai M, Guo J, El-Mousawi M, Kahramangil B, Neel JC, Lebrun JJ (April 2013). "MicroRNA-584 and the protein phosphatase and actin regulator 1 (PHACTR1), a new signaling route through which transforming growth factor-β Mediates the migration and actin dynamics of breast cancer cells". The Journal of Biological Chemistry. 288 (17): 11807–11823. doi:10.1074/jbc.M112.430934. PMC 3636869. PMID 23479725.
- ^ Debette S, Kamatani Y, Metso TM, Kloss M, Chauhan G, Engelter ST, et al. (January 2015). "Common variation in PHACTR1 is associated with susceptibility to cervical artery dissection". Nature Genetics. 47 (1): 78–83. doi:10.1038/ng.3154. PMC 5824623. PMID 25420145.
- ^ Mega JL, Stitziel NO, Smith JG, Chasman DI, Caulfield M, Devlin JJ, et al. (June 2015). "Genetic risk, coronary heart disease events, and the clinical benefit of statin therapy: an analysis of primary and secondary prevention trials". Lancet. 385 (9984): 2264–2271. doi:10.1016/S0140-6736(14)61730-X. PMC 4608367. PMID 25748612.
- ^ Fan X, Wang J, Fan W, Chen L, Gui B, Tan G, Zhou J (April 2014). "Replication of migraine GWAS susceptibility loci in Chinese Han population". Headache. 54 (4): 709–715. doi:10.1111/head.12329. PMID 24666033. S2CID 205159704.
- ^ Chasman DI, Schürks M, Anttila V, de Vries B, Schminke U, Launer LJ, et al. (June 2011). "Genome-wide association study reveals three susceptibility loci for common migraine in the general population". Nature Genetics. 43 (7): 695–698. doi:10.1038/ng.856. PMC 3125402. PMID 21666692.
- ^ Adlam D, Berrandou TE, Georges A, Nelson CP, Giannoulatou E, Henry J, et al. (May 2023). "Genome-wide association meta-analysis of spontaneous coronary artery dissection identifies risk variants and genes related to artery integrity and tissue-mediated coagulation". Nature Genetics. 55 (6): 964–972. doi:10.1038/s41588-023-01410-1. PMC 10260398. PMID 37248441. S2CID 258969891.
Further reading
- Fils-Aimé N, Dai M, Guo J, El-Mousawi M, Kahramangil B, Neel JC, Lebrun JJ (April 2013). "MicroRNA-584 and the protein phosphatase and actin regulator 1 (PHACTR1), a new signaling route through which transforming growth factor-β Mediates the migration and actin dynamics of breast cancer cells". The Journal of Biological Chemistry. 288 (17): 11807–11823. doi:10.1074/jbc.M112.430934. PMC 3636869. PMID 23479725.
- Kiel DP, Demissie S, Dupuis J, Lunetta KL, Murabito JM, Karasik D (September 2007). "Genome-wide association with bone mass and geometry in the Framingham Heart Study". BMC Medical Genetics. 8 (Suppl 1): S14. doi:10.1186/1471-2350-8-S1-S14. PMC 1995606. PMID 17903296.
- Freilinger T, Anttila V, de Vries B, Malik R, Kallela M, Terwindt GM, et al. (June 2012). "Genome-wide association analysis identifies susceptibility loci for migraine without aura". Nature Genetics. 44 (7): 777–782. doi:10.1038/ng.2307. PMC 3773912. PMID 22683712.
- Lluís-Ganella C, Lucas G, Subirana I, Sentí M, Jimenez-Conde J, Marrugat J, et al. (August 2010). "Additive effect of multiple genetic variants on the risk of coronary artery disease". Revista Espanola de Cardiologia. 63 (8): 925–933. doi:10.1016/S1885-5857(10)70186-9. PMID 20738937. S2CID 3879231.
- Ripatti S, Tikkanen E, Orho-Melander M, Havulinna AS, Silander K, Sharma A, et al. (October 2010). "A multilocus genetic risk score for coronary heart disease: case-control and prospective cohort analyses". Lancet. 376 (9750): 1393–1400. doi:10.1016/S0140-6736(10)61267-6. PMC 2965351. PMID 20971364.
- Allain B, Jarray R, Borriello L, Leforban B, Dufour S, Liu WQ, et al. (January 2012). "Neuropilin-1 regulates a new VEGF-induced gene, Phactr-1, which controls tubulogenesis and modulates lamellipodial dynamics in human endothelial cells". Cellular Signalling. 24 (1): 214–223. doi:10.1016/j.cellsig.2011.09.003. PMID 21939755.
- Coronary Artery Disease (C4D) Genetics Consortium (March 2011). "A genome-wide association study in Europeans and South Asians identifies five new loci for coronary artery disease". Nature Genetics. 43 (4): 339–344. doi:10.1038/ng.782. PMID 21378988. S2CID 39712343.
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: CS1 maint: numeric names: authors list (link) - Bevan S, Traylor M, Adib-Samii P, Malik R, Paul NL, Jackson C, et al. (December 2012). "Genetic heritability of ischemic stroke and the contribution of previously reported candidate gene and genomewide associations". Stroke. 43 (12): 3161–3167. doi:10.1161/STROKEAHA.112.665760. PMID 23042660.