Asian Science Citation Index is committed to provide an authoritative, trusted and significant information by the coverage of the most important and influential journals to meet the needs of the global scientific community.  
ASCI Database
308-Lasani Town,
Sargodha Road,
Faisalabad, Pakistan
Fax: +92-41-8815544
Contact Via Web
Suggest a Journal
 
Articles by F Damilano
Total Records ( 2 ) for F Damilano
  M Siragusa , R Katare , M Meloni , F Damilano , E Hirsch , C Emanueli and P. Madeddu
 

Rationale: Phosphoinositide 3-kinase (PI3K) is expressed in hematopoietic cells, endothelial cells (ECs), and cardiomyocytes and regulates different cellular functions relevant to inflammation, tissue remodeling and cicatrization. Recently, PI3K inhibitors have been indicated for the treatment of chronic inflammatory/autoimmune diseases and atherosclerosis.

Objective: We aimed to determine PI3K contribution to the angiogenic capacity of ECs and the effect of PI3K inhibition on healing of myocardial infarction (MI).

Methods and Results: Human umbilical ECs were treated with a selective PI3K inhibitor, AS605240, or a pan-phosphoinositide 3-kinases inhibitor, LY294002. Both inhibitory treatments and small interfering RNA–mediated PI3K knockdown strongly impaired ECs angiogenic capacity, because of suppression of the PI3K/Akt and mitogen-activated protein kinase pathways. Constitutive activation of Akt rescued the angiogenic defect. Reparative angiogenesis was studied in vivo in a model of MI. AS605240 did not affect MI-induced PI3K upregulation, whereas it suppressed Akt activation and downstream signaling. AS605240 strongly reduced inflammation, enhanced cardiomyocyte apoptosis, and impaired survival and proliferation of ECs in peri-infarct zone, which resulted in defective reparative neovascularization. As a consequence, AS605240-treated MI hearts showed increased infarct size and impaired recovery of left ventricular function. Similarly, PI3K-deficient mice showed impaired reparative neovascularization, enhanced cardiomyocyte apoptosis and marked deterioration of cardiac function following MI. Mice expressing catalytically inactive PI3K also failed to mount a proper neovascularization, although cardiac dysfunction was similar to wild-type controls.

Conclusions: PI3K expression and catalytic activity are involved at different levels in reparative neovascularization and healing of MI.

  D Guo , Z Kassiri , R Basu , F. L Chow , V Kandalam , F Damilano , W Liang , S Izumo , E Hirsch , J. M Penninger , P. H Backx and G. Y. Oudit
  Rationale:

Mechanotransduction and the response to biomechanical stress is a fundamental response in heart disease. Loss of phosphoinositide 3-kinase (PI3K), the isoform linked to G protein–coupled receptor signaling, results in increased myocardial contractility, but the response to pressure overload is controversial.

Objective:

To characterize molecular and cellular responses of the PI3K knockout (KO) mice to biomechanical stress.

Methods and Results:

In response to pressure overload, PI3KKO mice deteriorated at an accelerated rate compared with wild-type mice despite increased basal myocardial contractility. These functional responses were associated with compromised phosphorylation of Akt and GSK-3. In contrast, isolated single cardiomyocytes from banded PI3KKO mice maintained their hypercontractility, suggesting compromised interaction with the extracellular matrix as the primary defect in the banded PI3KKO mice. β-Adrenergic stimulation increased cAMP levels with increased phosphorylation of CREB, leading to increased expression of cAMP-responsive matrix metalloproteinases (MMPs), MMP2, MT1-MMP, and MMP13 in cardiomyocytes and cardiofibroblasts. Loss of PI3K resulted in increased cAMP levels with increased expression of MMP2, MT1-MMP, and MMP13 and increased MMP2 activation and collagenase activity in response to biomechanical stress. Selective loss of N-cadherin from the adhesion complexes in the PI3KKO mice resulted in reduced cell adhesion. The β-blocker propranolol prevented the upregulation of MMPs, whereas MMP inhibition prevented the adverse remodeling with both therapies, preventing the functional deterioration in banded PI3KKO mice. In banded wild-type mice, long-term propranolol prevented the adverse remodeling and systolic dysfunction with preservation of the N-cadherin levels.

Conclusions:

The enhanced propensity to develop heart failure in the PI3KKO mice is attributable to a cAMP-dependent upregulation of MMP expression and activity and disorganization of the N-cadherin/β-catenin cell adhesion complex. β-Blocker therapy prevents these changes thereby providing a novel mechanism of action for these drugs.

 
 
 
Copyright   |   Desclaimer   |    Privacy Policy   |   Browsers   |   Accessibility