Local Delivery of Human Tissue Kallikrein Gene Accelerates Spontaneous Angiogenesis in Mouse Model of Hindlimb Ischemia

Costanza Emanueli; Alessandra Minasi; Antonella Zacheo; Julie Chao; Lee Chao; Maria Bonaria Salis; Stefania Straino; Maria Grazia Tozzi; Robert S. Smith; Leonardo Gaspa; Giuseppe Bianchini; Francesco Stillo; Maurizio C. Capogrossi; Paolo Madeddu

doi:10.1161/01.cir.103.1.125

Local Delivery of Human Tissue Kallikrein Gene Accelerates Spontaneous Angiogenesis in Mouse Model of Hindlimb Ischemia

Costanza Emanueli(Medical University of South Carolina), Alessandra Minasi(Medical University of South Carolina), Antonella Zacheo(Medical University of South Carolina), Julie Chao(Medical University of South Carolina), Lee Chao(Medical University of South Carolina), Maria Bonaria Salis(Medical University of South Carolina), Stefania Straino(Medical University of South Carolina), Maria Grazia Tozzi(Medical University of South Carolina), Robert S. Smith(Medical University of South Carolina), Leonardo Gaspa(Medical University of South Carolina), Giuseppe Bianchini(Medical University of South Carolina), Francesco Stillo(Medical University of South Carolina), Maurizio C. Capogrossi(Medical University of South Carolina), Paolo Madeddu(Medical University of South Carolina)

Circulation

January 2, 2001

10.1161/01.cir.103.1.125

Cited by 189Open Access

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Abstract

BACKGROUND: Human tissue kallikrein (HK) releases kinins from kininogen. We investigated whether adenovirus-mediated HK gene delivery is angiogenic in the context of ischemia. METHODS AND RESULTS: Hindlimb ischemia, caused by femoral artery excision, increased muscular capillary density (P:<0.001) and induced the expression of kinin B(1) receptor gene (P:<0.05). Pharmacological blockade of B(1) receptors blunted ischemia-induced angiogenesis (P:<0.01), whereas kinin B(2) receptor antagonism was ineffective. Intramuscular delivery of adenovirus containing the HK gene (Ad. CMV-cHK) enhanced the increase in capillary density caused by ischemia (969+/-32 versus 541+/-18 capillaries/mm(2) for control, P:<0.001), accelerated blood flow recovery (P:<0.01), and preserved energetic charge of ischemic muscle (P:<0.01). Chronic blockade of kinin B(1) or B(2) receptors prevented HK-induced angiogenesis. CONCLUSIONS: HK gene delivery enhances the native angiogenic response to ischemia. Angiogenesis gene therapy with HK might be applicable to peripheral occlusive vascular disease.

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