128
Angelone T, Quintieri AM, Brar BK, Limchaiyawat PT, Tota B, Mahata SK, Cerra MC (2008) The
antihypertensive chromogranin a peptide catestatin acts as a novel endocrine/paracrine modu-
lator of cardiac inotropism and lusitropism. Endocrinology 149(10):4780–4793
Angelone T, Quintieri AM, Pasqua T, Gentile S, Tota B, Mahata SK, Cerra MC (2012)
Phosphodiesterase type-2 and NO-dependent S-nitrosylation mediate the cardioinhibition of
the antihypertensive catestatin. Am J Physiol Heart Circ Physiol 302(2):H431–H442
Angelone T, Quintieri AM, Pasqua T, Filice E, Cantafio P, Scavello F, Rocca C, Mahata SK, Gattuso
A, Cerra MC (2015) The NO stimulator, Catestatin, improves the Frank-Starling response in
normotensive and hypertensive rat hearts. Nitric Oxide 50:10–19
Bartizal K, Abruzzo G, Trainor C, Krupa D, Nollstadt K, Schmatz D, Schwartz R, Hammond M,
Balkovec J, Vanmiddlesworth F (1992) In vitro antifungal activities and in vivo efficacies of
1,3-beta-D-glucan synthesis inhibitors L-671,329, L-646,991, tetrahydroechinocandin B, and
L-687,781, a papulacandin. Antimicrob Agents Chemother 36(8):1648–1657
Bassino E, Fornero S, Gallo MP, Ramella R, Mahata SK, Tota B, Levi R, Alloatti G (2011) A
novel catestatin-induced antiadrenergic mechanism triggered by the endothelial PI3K-eNOS
pathway in the myocardium. Cardiovasc Res 91(4):617–624
Bayraktutan U, Yang ZK, Shah AM (1998) Selective dysregulation of nitric oxide synthase type
3 in cardiac myocytes but not coronary microvascular endothelial cells of spontaneously hyper-
tensive rat. Cardiovasc Res 3:719–726
Bing OHL, Brooks WW, Robinson KG, Slawsky MT, Hayes JA, Litwin SE, Sen S, Conrad CH
(1995) The spontaneously hypertensive rat as a model of the transition from compensated left
ventricular hypertrophy to failure. J Mol Cell Cardiol 27:383–396
Brekke JF, Osol GJ, Helle KB (2002) N-terminal chromogranin-derived peptides as dilators of
bovine coronary resi stance arteries. Regul Pept 105:93–100
Cappello S, Angelone T, Tota B, Pagliaro P, Penna C, Rastaldo R, Corti A, Losano G, Cerra
MC (2007) Human recombinant chromogranin A-derived vasostatin-1 mimics precondition-
ing via an adenosine/nitric oxide signaling mechanism. Am J Physiol Heart Circ Physiol
293(1):H719–H727
Cerra MC, De Iuri L, Angelone T, Corti A, Tota B (2006) Recombinant N-terminal fragments of
chromogranin-A modulate cardiac function of the Langendorff-perfused rat heart. Basic Res
Cardiol 101(1):43–52
Cerra MC, Gallo MP, Angelone T, Quintieri AM, Pulerà E, Filice E, Guérold B, Shooshtarizadeh
P, Levi R, Ramella R, Brero A, Boero O, Metz-Boutigue MH, Tota B, Alloatti G (2008) The
homologous rat chromogranin A1-64 (rCGA1-64) modulates myocardial and coronary func-
tion in rat heart to counteract adrenergic stimulation indirectly via endothelium-derived nitric
oxide. FASEB J 22(11):3992–4004
Di Felice V, Cappello F, Montalbano A, Ardizzone N, Campanella C, De Luca A, Amelio D,
Tota B, Corti A, Zummo G (2006) Human recombinant vasostatin-1 may interfere with cell-
extracellular matrix interactions. Ann N Y Acad Sci 1090:305–310
Dong S, Cheng Y, Yang J, Li J, Liu X, Wang X, Wang D, Krall TJ, Delphin ES, Zhang C (2009)
MicroRNA expression signature and the role of microRNA-21 in the early phase of acute myo-
cardial infarction. J Biol Chem 284:29514–29525
Ferrero E, Scabini S, Magni E, Foglieni C, Belloni D, Colombo B, Curnis F, Villa A, Ferrero ME,
Corti A (2004) Chromogranin A protects vessels against tumor necrosis factor alpha-induced
vascular leakage. FASEB J 18:554–556
Filice E, Pasqua T, Quintieri AM, Cantafio P, Scavello F, Amodio N, Cerra MC, Marban C,
Schneider F, Metz-Boutigue MH, Angelone T (2015) Chromofungin, CgA47-66-derived pep-
tide, produces basal cardiac effects and postconditioning cardioprotective action during isch-
emia/reperfusion injury. Peptides 71:40–48
Fung MM, Salem RM, Mehtani P, Thomas B, Lu CF, Perez B, Rao F, Stridsberg M, Ziegler MG,
Mahata SK, O'Connor DT (2010) Direct vasoactive effects of the Chromogranin A (CHGA)
peptide catestatin in humans in vivo. Clin Exp Hypertens 5:278–287
Garofalo F, Parisella ML, Amelio D, Tota B, Imbrogno S (2009) Phospholamban S-nitrosylation
modulates Starling response in fish heart. Proc Biol Sci 276(1675):4043–4052
T. Angelone et al.