Erratum: Zebrafish ambra1a and ambra1b knockdown impairs skeletal muscle development (PLoS ONE (2014) 9, 6 (e99210) DOI: 10.1371/journal.pone.0099210);Zebrafish ambra1a and ambra1b knockdown impairs skeletal muscle development

PLoS ONE

Volumn 9, Issue 6, 2014, Pages

  Skobo, Tatjana ^a   Benato, Francesca ^a   Grumati, Paolo ^a   Meneghetti, Giacomo ^a   Cianfanelli, Valentina ^b   Castagnaro, Silvia ^a   Chrisam, Martina ^a   Di Bartolomeo, Sabrina ^b   Bonaldo, Paolo ^a   Cecconi, Francesco ^b,c,d   Dalla Valle, Luisa ^a  

^a UNIVERSITY OF PADOVA   (Italy)

^b UNIVERSITY OF ROME TOR VERGATA   (Italy)

^c IRCCS FONDAZIONE SANTA LUCIA   (Italy)

^d DANISH CANCER SOCIETY RESEARCH CENTER   (Denmark)

Author keywords

[No Author keywords available]

Indexed keywords

AMBRA1A GENE; AMBRA1B GENE; ANIMAL CELL; ANIMAL TISSUE; ARTICLE; AUTOPHAGY; CELL ULTRASTRUCTURE; CONTROLLED STUDY; EMBRYO; GENE; GENE EXPRESSION; GENE FUNCTION; GENE SILENCING; GENETIC ANALYSIS; GENETIC REGULATION; LOCOMOTION; MOLECULAR IMAGING; MORPHOGENESIS; MOUSE; MUSCLE DEVELOPMENT; MYOD1 GENE; NONHUMAN; PHENOTYPE; ZEBRA FISH; ANIMAL; ANIMAL EMBRYO; BIREFRINGENCE; CELL PROLIFERATION; DEFICIENCY; DRUG EFFECTS; EMBRYOLOGY; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; MOVEMENT (PHYSIOLOGY); PATHOLOGY; SKELETAL MUSCLE; ULTRASTRUCTURE;

AMBRA1A PROTEIN, ZEBRAFISH; AMBRA1B PROTEIN, ZEBRAFISH; MORPHOLINO OLIGONUCLEOTIDE; MYOD PROTEIN; MYOSIN; SIGNAL TRANSDUCING ADAPTOR PROTEIN; TRANSCRIPTION FACTOR PAX7; ZEBRAFISH PROTEIN;

ADAPTOR PROTEINS, SIGNAL TRANSDUCING; ANIMALS; BIREFRINGENCE; CELL PROLIFERATION; EMBRYO, NONMAMMALIAN; GENE EXPRESSION REGULATION, DEVELOPMENTAL; GENE KNOCKDOWN TECHNIQUES; MICE; MORPHOLINOS; MOVEMENT; MUSCLE DEVELOPMENT; MUSCLE FIBERS, SKELETAL; MUSCLE, SKELETAL; MYOD PROTEIN; MYOSINS; PAX7 TRANSCRIPTION FACTOR; ZEBRAFISH; ZEBRAFISH PROTEINS;

EID: 84903385007     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0109480     Document Type: Erratum

References (35)

1. Levine B, Kroemer G (2008) Autophagy in the pathogenesis of disease. Cell 132: 27-42.
2. Mizushima N, Komatsu M (2011) Autophagy: renovation of cells and tissues. Cell 147: 728-741.
3. Raben NV, Hill L, Shea S, Takikita R, Baum N, et al. (2008) Suppression of autophagy in skeletal muscle uncovers the accumulation of ubiquitinated proteins and their potential role in muscle damage in Pompe disease. Hum Mol Genet 17: 3897-3908.
4. Masiero E, Agatea L, Mammucari C, Blaauw B, Loro E, et al. (2009) Autophagy is required to maintain muscle mass. Cell Metab 10: 507-515.
5. Grumati P, Coletto L, Sabatelli P, Cescon M, Angelin A, et al. (2010) Autophagy is defective in collagen VI muscular dystrophies, and its reactivation rescues myofiber degeneration. Nat Med 16: 1313-1320.
6. Carmignac V, Svensson M, Körner Z, Elowsson L, Matsumura C, et al. (2011) Autophagy is increased in laminin α2 chain-deficient muscle and its inhibition improves muscle morphology in a mouse model of MDC1A. Hum Mol Genet 20: 4891-4902.
7. De Palma C, Morisi F, Cheli S, Pambianco S, Cappello V, et al. (2012) Autophagy as a new therapeutic target in Duchenne muscular dystrophy. Cell Death Dis 15: e418.
8. Choi JC, Muchir A, Wu W, Iwata S, Homma S, et al. (2012) Temsirolimus activates autophagy and ameliorates cardiomyopathy caused by lamin A/C gene mutation. Sci Transl Med 4: 144ra102.
9. Ramos FJ, Chen SC, Garelick MG, Dai DF, Liao CY, et al. (2012) Rapamycin reverses elevated mTORC1 signaling in lamin A/C-deficient mice, rescues cardiac and skeletal muscle function, and extends survival. Sci Transl Med 4: 144ra103.
10. Cullup T, Kho AL, Dionisi-Vici C, Brandmeier B, Smith F, et al. (2012) Recessive mutations in EPG5 cause Vici syndrome, a multisystem disorder with defective autophagy. Nat Genet 45: 83-87.
11. Fimia GM, Stoykova A, Romagnoli A, Giunta L, Di Bartolomeo S, et al. (2007) Ambra1 regulates autophagy and development of the nervous system. Nature 447: 1121-1125. (Pubitemid 47014434)
12. Fimia GM, Corazzari M, Antonioli M, Piacentini M (2013) Ambra1 at the crossroad between autophagy and cell death. Oncogene 32: 3311-3318.
13. Di Bartolomeo S, Corazzari M, Oliverio S, Nazio F, Lisi G, et al. (2010) The dynamic interaction of Ambra1 with the dynein motor complex regulates mammalian autophagy. J Cell Biol 191: 155-168.
14. Benato F, Skobo T, Gioacchini G, Moro I, Ciccosanti F, et al. (2013) Ambra1 knockdown in zebrafish leads to incomplete development due to severe defects in organogenesis. Autophagy 9: 476-495.
15. Jackson HE, Ingham PW (2013) Control of muscle fibre-type diversity during embryonic development: the zebrafish paradigm. Mech Dev 130: 447-457.
16. Gibbs EM, Horstick EJ, Dowling JJ (2013) Swimming into prominence: the zebrafish as a valuable tool for studying human myopathies and muscular dystrophies. FEBS J 280: 4187-4197.
17. Kimmel CB, Ballard WW, Kimmel SR, Ullmann B, Schilling TF (1995) Stages of embryonic development of the zebrafish. Dev Dyn 203: 253-310.
18. Westerfield M (1995) The Zebrafish Book. A Guide for the Laboratory Use of Zebrafish (Danio rerio), 3rd Edition. Eugene, OR, University of Oregon Press.
19. Thisse C, Thisse B (2008) High-resolution in situ hybridization to whole-mount zebrafish embryos. Nat Protoc 3: 59-69.
20. Dolez M, Nicolas JF, Hirsinger E (2011) Laminins, via heparan sulfate proteoglycans, participate in zebrafish myotome morphogenesis by modulating the pattern of Bmp responsiveness. Development 138: 97-106.
21. Ellis K, Bagwell J, Bagnat M (2013) Notochord vacuoles are lysosome-related organelles that function in axis and spine morphogenesis. J Cell Biol 200: 667-679.
22. Nord H, Nygård Skalman L, von Hofsten J (2013) Six1 regulates proliferation of Pax7-positive muscle progenitors in zebrafish. J Cell Sci 126: 1868-1880.
23. Coutelle O, Blagden CS, Hampson R, Halai C, Rigby PW, et al. (2001) Hedgehog signalling is required for maintenance of myf5 and myoD expression and timely terminal differentiation in zebrafish adaxial myogenesis. Dev Biol 236: 136-150.
24. Weinberg ES, Allende ML, Kelly CS, Abdelhamid A, Murakami T, et al. (1996) Developmental regulation of zebrafish MyoD in wild-type, no tail and spadetail embryos. Development 122: 271-280. (Pubitemid 26038439)
25. Devoto SH, Melançon E, Eisen JS, Westerfield M (1996) Identification of separate slow and fast muscle precursor cells in vivo, prior to somite formation. Development 122: 3371-3380. (Pubitemid 26395980)
26. Ochi H, Westerfield M (2007) Signaling networks that regulate muscle development: lessons from zebrafish. Dev Growth Differ 49: 1-11. (Pubitemid 46066480)
27. Du SJ, Devoto SH, Westerfield M, Moon RT (1997) Positive and negative regulation of muscle cell identity by members of the hedgehog and TGF-beta gene families. J Cell Biol 139: 145-156. (Pubitemid 27444087)
28. Wolff C, Roy S, Ingham PW (2003) Multiple muscle cell identities induced by distinct levels and timing of hedgehog activity in zebrafish embryos. Curr Biol 13: 1169-1181. (Pubitemid 36872939)
29. He C, Bartholomew CR, Zhou W, Klionsky DJ (2009) Assaying autophagic activity in transgenic GFP-Lc3 and GFP-Gabarap zebrafish embryos. Autophagy 5: 520-526.
30. Seger C, Hargrave M, Wang X, Chai RJ, Elworthy S, et al. (2011) Analysis of Pax7 expressing myogenic cells in zebrafish muscle development, injury, and models of disease. Dev Dyn 240: 2440-2451.
31. Berger J, Berger S, Hall TE, Lieschke GJ, Currie PD (2010) Dystrophin-deficient zebrafish feature aspects of the Duchenne muscular dystrophy pathology. Neuromuscul Disord 20: 826-832.
32. Postlethwait J, Amores A, Cresko W, Singer A, Yan YL (2004) Subfunction partitioning, the teleost radiation and the annotation of the human genome. Trends Genet 20: 481-490. (Pubitemid 39201068)
33. Blagden CS, Currie PD, Ingham PW, Hughes SM (1997) Notochord induction of zebrafish slow muscle mediated by Sonic hedgehog. Genes Dev 11: 2163-2175. (Pubitemid 27387968)
34. Sandri M, Coletto L, Grumati P, Bonaldo P (2013) Misregulation of autophagy and protein degradation systems in myopathies and muscular dystrophies. J Cell Sci 126: 5325-5333.
35. Vainshtein A, Grumati P, Sandri M, Bonaldo P (2014) Skeletal muscle, autophagy, and physical activity: the ménage a trois of metabolic regulation in health and disease. J Mol Med 92: 127-137.