ANKRD1

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CARP, also known as Cardiac adriamycin-responsive protein or Cardiac ankyrin repeat protein is a protein that in humans is encoded by the ANKRD1 gene.[1][2] CARP is highly expressed in cardiac and skeletal muscle, and is a transcription factor involved in development and under conditions of stress. CARP has been implicated in several diseases, including dilated cardiomyopathy, hypertrophic cardiomyopathy, and several skeletal muscle myopathies.

Structure

Human CARP is a 36.2kDa protein composed of 319 amino acids.,[3] though in cardiomyocytes, CARP can exist as multiple alternatively spliced forms.[4] CARP contains five tandem ankyrin repeats. Studies have shown that CARP can homodimerize.[5] Studies have also shown that CARP is N-terminally, post-translationally cleaved by calpain-3 in skeletal muscle, suggesting alternate bioactive forms of CARP exist.[6] CARP has been localized to nuclei and Z-discs in animal and human myocytes, and at intercalated discs in human cells.[7]

Function

CARP was originally identified as a YB-1-associating, cardiac-restricted transcription co-repressor in the homeobox NKX2-5 pathway that is involved in cardiac ventricular chamber specification, maturation and morphogenesis,[8][9][10] and whose mRNA levels are exquisitely sensitive to Doxorubicin, mediated through a hydrogen peroxide/ERK/p38MAP kinase-dependent[11][12] as well as M-CAT cis-element-dependent[13] mechanism. Subsequent studies showed that CARP expression in cardiomyocytes is regulated by alpha-adrenergic signaling, in part via the transcription factor GATA4.[14][15] An additional study showed that beta-adrenergic signaling via protein kinase A and CaM kinase induces the expression of CARP, and that CARP may have a negative effect on contractile function.[16] CARP has also been identified as a transcriptional co-activator of tumor suppressor protein p53 for stimulating gene expression in muscle; p53 was found to be an upstream effector of CARP via upregulation of the proximal ANKRD1 promoter.[17] Interestingly, CARP protein has a relatively short half-life being longer in cardiomyocytes than endothelial cells; and CARP is degraded by the 26S proteasome via a PEST degron.[18][19]

In animal models of disease and injury, CARP has been characterized to be a stress-inducible myofibrillar protein. CARP has been shown to play a role in skeletal muscle structure[20] remodeling,[21] and repair, being expressed in skeletal muscle near myotendinous junctions,[22] and in vascular smooth muscle cells, as a downstream target of TGF-beta/Smad sigmaling in response to balloon injury[23] and atherosclerotic plaques.[24] Further studies have identified a role for CARP in initiation and regulation of arteriogenesis.[25][26][27] Decreased expression of CARP in cardiac cells within the ischemic region was detected in a rat model of ischemic injury, and was thought to be linked to the induction of GADD153, an apoptosis-related gene.[28] In cardiomyocytes treated with doxorubicin, a model of anthracycline-induced cardiomyopathy, CARP mRNA and protein levels were depleted, myofilament gene transcription was attenuated and sarcomeres showed significant disarray.[29]

In a transgenic mouse model of cardiac-specific overexpression of CARP, mice exhibited normal physiology at baseline, but were protected against pathological cardiac hypertrophy induced via pressure-overload or isoproterenol, which could be attributed to the downregulation of the ERK1/2, MEK and TGFbeta-1 pathways.[30] Another study demonstrated that adenoviral overexpression of CARP in cardiomyocytes enhances cardiac hypertrophy induced by Angiotensin II or pressure-overload[31] and promotoes cardiomyocyte apoptosis via p53 activation and mitochondrial dysfunction.[32] However, transgenic knockout models of either CARP alone or CARP in combination with the other muscle ankyrin repeat proteins (MARPs), ANKRD2 and ANKRD23 demonstrated a lack of cardiac phenotype; mice displayed normal cardiac function at baseline and in response to pressure overload-induced cardiac hypertrophy, suggesting that these proteins are not essential.[33]

Interactions between CARP and the sarcomeric proteins myopalladin and titin suggest that it may also be involved in the myofibrillar stretch-sensor system. Passive stretch in fetal cardiomyocytes induced differential CARP distribution at nuclei and I-band titin N2A regions.[34] In a mouse model of muscular dystrophy with myositis (mdm) caused by a small deletion in titin, CARP mRNA expression was shown to be 30-fold elevated in skeletal muscle tissue.[35]

Clinical significance

A wide spectrum of clinical features have been associated with ANKRD1/CARP protein. Mutations in ANKRD1 have been associated with dilated cardiomyopathy, two of which result in altered binding with TLN1 and FHL2.[36][37] Mutations in ANKRD1 have also been associated with hypertrophic cardiomyopathy, and have shown to increase binding of CARP to Titin and MYPN.[38] Examination of the functional effects of CARP hypertrophic cardiomyopathy mutations in engineered heart tissue demonstrated that Thr123Met was a gain-of-function mutation exhibiting augmented contractile properties; whereas Pro52Ala and Ile280Val were unstable and failed to incorporate into sarcomeres, an effect that was remedied upon proteasome inhibition via epoxomicin.[39]

A missense mutation in ANKRD1 was shown to be associated with the congenital heart defect, Anomalous pulmonary venous connection.[40] CARP has been found as a sensitive and specific biomarker for the differential diagnosis of rhabdomyosarcoma.[41] Interestingly, ANKRD1 mRNA levels correlate with patient platinum sensitivity, thus ANKRD1 associates with platinum-based chemotherapy treatment outcome in ovarian adenocarcinoma patients.[42]

CARP protein and mRNA expression has been shown to be upregulated in left ventricles of heart failure patients.[43][44][45][46] Studies in patients with amyotrophic lateral sclerosis,[47] spinal muscular atrophy, and congenital myopathy,[48] also found altered expression of CARP in skeletal muscle fibers. Another study in congenital muscular dystrophy and Duchenne muscular dystrophy patients showed elevated expression of CARP.[49] CARP expression is also elevated in patients with lupus nephritis, and associates with proteinuria severity, suggesting that it may have biomarker potential.[50]

Interactions

ANKRD1 has been shown to interact with:

References

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  2. "Entrez Gene: ANKRD1 ankyrin repeat domain 1 (cardiac muscle)".
  3. "Protein sequence of human ANKRD1 (Uniprot ID: Q15327)". Cardiac Organellar Protein Atlas Knowledgebase. Retrieved 23 June 2015.
  4. Torrado M, Iglesias R, Nespereira B, Centeno A, López E, Mikhailov AT (Jul 2009). "Intron retention generates ANKRD1 splice variants that are co-regulated with the main transcript in normal and failing myocardium". Gene. 440 (1–2): 28–41. doi:10.1016/j.gene.2009.03.017. PMID 19341785.
  5. 5.0 5.1 Witt SH, Labeit D, Granzier H, Labeit S, Witt CC (2005). "Dimerization of the cardiac ankyrin protein CARP: implications for MARP titin-based signaling". Journal of Muscle Research and Cell Motility. 26 (6–8): 401–8. doi:10.1007/s10974-005-9022-9. PMID 16450059.
  6. Laure L, Danièle N, Suel L, Marchand S, Aubert S, Bourg N, Roudaut C, Duguez S, Bartoli M, Richard I (Oct 2010). "A new pathway encompassing calpain 3 and its newly identified substrate cardiac ankyrin repeat protein is involved in the regulation of the nuclear factor-κB pathway in skeletal muscle". The FEBS Journal. 277 (20): 4322–37. doi:10.1111/j.1742-4658.2010.07820.x. PMID 20860623.
  7. Jasnic-Savovic J, Nestorovic A, Savic S, Karasek S, Vitulo N, Valle G, Faulkner G, Radojkovic D, Kojic S (Jun 2015). "Profiling of skeletal muscle Ankrd2 protein in human cardiac tissue and neonatal rat cardiomyocytes". Histochemistry and Cell Biology. 143 (6): 583–97. doi:10.1007/s00418-015-1307-5. PMID 25585647.
  8. 8.0 8.1 Zou Y, Evans S, Chen J, Kuo HC, Harvey RP, Chien KR (Feb 1997). "CARP, a cardiac ankyrin repeat protein, is downstream in the Nkx2-5 homeobox gene pathway". Development. 124 (4): 793–804. PMID 9043061.
  9. Kuo H, Chen J, Ruiz-Lozano P, Zou Y, Nemer M, Chien KR (Oct 1999). "Control of segmental expression of the cardiac-restricted ankyrin repeat protein gene by distinct regulatory pathways in murine cardiogenesis". Development. 126 (19): 4223–34. PMID 10477291.
  10. Takimoto E, Mizuno T, Terasaki F, Shimoyama M, Honda H, Shiojima I, Hiroi Y, Oka T, Hayashi D, Hirai H, Kudoh S, Toko H, Kawamura K, Nagai R, Yazaki Y, Komuro I (Apr 2000). "Up-regulation of natriuretic peptides in the ventricle of Csx/Nkx2-5 transgenic mice". Biochemical and Biophysical Research Communications. 270 (3): 1074–9. doi:10.1006/bbrc.2000.2561. PMID 10772952.
  11. Jeyaseelan R, Poizat C, Baker RK, Abdishoo S, Isterabadi LB, Lyons GE, Kedes L (Sep 1997). "A novel cardiac-restricted target for doxorubicin. CARP, a nuclear modulator of gene expression in cardiac progenitor cells and cardiomyocytes". The Journal of Biological Chemistry. 272 (36): 22800–8. doi:10.1074/jbc.272.36.22800. PMID 9278441.
  12. Aihara Y, Kurabayashi M, Tanaka T, Takeda SI, Tomaru K, Sekiguchi KI, Ohyama Y, Nagai R (Aug 2000). "Doxorubicin represses CARP gene transcription through the generation of oxidative stress in neonatal rat cardiac myocytes: possible role of serine/threonine kinase-dependent pathways". Journal of Molecular and Cellular Cardiology. 32 (8): 1401–14. doi:10.1006/jmcc.2000.1173. PMID 10900167.
  13. Aihara Y, Kurabayashi M, Saito Y, Ohyama Y, Tanaka T, Takeda S, Tomaru K, Sekiguchi K, Arai M, Nakamura T, Nagai R (Jul 2000). "Cardiac ankyrin repeat protein is a novel marker of cardiac hypertrophy: role of M-CAT element within the promoter". Hypertension. 36 (1): 48–53. doi:10.1161/01.hyp.36.1.48. PMID 10904011.
  14. Maeda T, Sepulveda J, Chen HH, Stewart AF (Sep 2002). "Alpha(1)-adrenergic activation of the cardiac ankyrin repeat protein gene in cardiac myocytes". Gene. 297 (1–2): 1–9. doi:10.1016/s0378-1119(02)00924-1. PMID 12384280.
  15. Zhong L, Chiusa M, Cadar AG, Lin A, Samaras S, Davidson JM, Lim CC (May 2015). "Targeted inhibition of ANKRD1 disrupts sarcomeric ERK-GATA4 signal transduction and abrogates phenylephrine-induced cardiomyocyte hypertrophy". Cardiovascular Research. 106 (2): 261–71. doi:10.1093/cvr/cvv108. PMC 4481572. PMID 25770146.
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  17. 17.0 17.1 Kojic S, Nestorovic A, Rakicevic L, Belgrano A, Stankovic M, Divac A, Faulkner G (Oct 2010). "A novel role for cardiac ankyrin repeat protein Ankrd1/CARP as a co-activator of the p53 tumor suppressor protein". Archives of Biochemistry and Biophysics. 502 (1): 60–7. doi:10.1016/j.abb.2010.06.029. PMID 20599664.
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  29. Chen B, Zhong L, Roush SF, Pentassuglia L, Peng X, Samaras S, Davidson JM, Sawyer DB, Lim CC (2012). "Disruption of a GATA4/Ankrd1 signaling axis in cardiomyocytes leads to sarcomere disarray: implications for anthracycline cardiomyopathy". PLOS ONE. 7 (4): e35743. doi:10.1371/journal.pone.0035743. PMC 3332030. PMID 22532871.
  30. Song Y, Xu J, Li Y, Jia C, Ma X, Zhang L, Xie X, Zhang Y, Gao X, Zhang Y, Zhu D (2012). "Cardiac ankyrin repeat protein attenuates cardiac hypertrophy by inhibition of ERK1/2 and TGF-β signaling pathways". PLOS ONE. 7 (12): e50436. doi:10.1371/journal.pone.0050436. PMC 3515619. PMID 23227174.
  31. Chen C, Shen L, Cao S, Li X, Xuan W, Zhang J, Huang X, Bin J, Xu D, Li G, Kitakaze M, Liao Y (2014). "Cytosolic CARP promotes angiotensin II- or pressure overload-induced cardiomyocyte hypertrophy through calcineurin accumulation". PLOS ONE. 9 (8): e104040. doi:10.1371/journal.pone.0104040. PMC 4121294. PMID 25089522.
  32. Shen L, Chen C, Wei X, Li X, Luo G, Zhang J, Bin J, Huang X, Cao S, Li G, Liao Y (May 2015). "Overexpression of ankyrin repeat domain 1 enhances cardiomyocyte apoptosis by promoting p53 activation and mitochondrial dysfunction in rodents". Clinical Science. 128 (10): 665–78. doi:10.1042/CS20140586. PMID 25511237.
  33. Bang ML, Gu Y, Dalton ND, Peterson KL, Chien KR, Chen J (2014). "The muscle ankyrin repeat proteins CARP, Ankrd2, and DARP are not essential for normal cardiac development and function at basal conditions and in response to pressure overload". PLOS ONE. 9 (4): e93638. doi:10.1371/journal.pone.0093638. PMC 3988038. PMID 24736439.
  34. Miller MK, Bang ML, Witt CC, Labeit D, Trombitas C, Watanabe K, Granzier H, McElhinny AS, Gregorio CC, Labeit S (Nov 2003). "The muscle ankyrin repeat proteins: CARP, ankrd2/Arpp and DARP as a family of titin filament-based stress response molecules". Journal of Molecular Biology. 333 (5): 951–64. doi:10.1016/j.jmb.2003.09.012. PMID 14583192.
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  41. Ishiguro N, Motoi T, Araki N, Ito H, Moriyama M, Yoshida H (Nov 2008). "Expression of cardiac ankyrin repeat protein, CARP, in malignant tumors: diagnostic use of CARP protein immunostaining in rhabdomyosarcoma". Human Pathology. 39 (11): 1673–9. doi:10.1016/j.humpath.2008.04.009. PMID 18656235.
  42. Scurr LL, Guminski AD, Chiew YE, Balleine RL, Sharma R, Lei Y, Pryor K, Wain GV, Brand A, Byth K, Kennedy C, Rizos H, Harnett PR, deFazio A (Nov 2008). "Ankyrin repeat domain 1, ANKRD1, a novel determinant of cisplatin sensitivity expressed in ovarian cancer". Clinical Cancer Research. 14 (21): 6924–32. doi:10.1158/1078-0432.CCR-07-5189. PMID 18980987.
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  47. Nakamura K, Nakada C, Takeuchi K, Osaki M, Shomori K, Kato S, Ohama E, Sato K, Fukayama M, Mori S, Ito H, Moriyama M (Apr 2003). "Altered expression of cardiac ankyrin repeat protein and its homologue, ankyrin repeat protein with PEST and proline-rich region, in atrophic muscles in amyotrophic lateral sclerosis". Pathobiology. 70 (4): 197–203. doi:10.1159/000069329. PMID 12679596.
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  50. Matsuura K, Uesugi N, Hijiya N, Uchida T, Moriyama M (Mar 2007). "Upregulated expression of cardiac ankyrin-repeated protein in renal podocytes is associated with proteinuria severity in lupus nephritis". Human Pathology. 38 (3): 410–9. doi:10.1016/j.humpath.2006.09.006. PMID 17239933.
  51. 51.0 51.1 Miller MK, Bang ML, Witt CC, Labeit D, Trombitas C, Watanabe K, Granzier H, McElhinny AS, Gregorio CC, Labeit S (November 2003). "The muscle ankyrin repeat proteins: CARP, ankrd2/Arpp and DARP as a family of titin filament-based stress response molecules". J. Mol. Biol. 333 (5): 951–64. doi:10.1016/j.jmb.2003.09.012. PMID 14583192.
  52. Bang ML, Mudry RE, McElhinny AS, Trombitás K, Geach AJ, Yamasaki R, Sorimachi H, Granzier H, Gregorio CC, Labeit S (April 2001). "Myopalladin, a novel 145-kilodalton sarcomeric protein with multiple roles in Z-disc and I-band protein assemblies". J. Cell Biol. 153 (2): 413–27. doi:10.1083/jcb.153.2.413. PMC 2169455. PMID 11309420.
  53. Torrado M, Nespereira B, López E, Centeno A, Castro-Beiras A, Mikhailov AT (Feb 2005). "ANKRD1 specifically binds CASQ2 in heart extracts and both proteins are co-enriched in piglet cardiac Purkinje cells". Journal of Molecular and Cellular Cardiology. 38 (2): 353–65. doi:10.1016/j.yjmcc.2004.11.034. PMID 15698842.

External links

Further reading

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