Direct delivery of syngeneic and allogeneic large-scale expanded multipotent adult progenitor cells improves cardiac function after myocardial infarct.

BACKGROUND: Multipotent adult progenitor cells (MAPC) comprise interesting candidates for myocardial regeneration because of a broad differentiation ability and immune privilege. We aimed to compare the improvement of cardiac function by syngeneic and allogeneic MAPC produced on a large scale using a platform optimized from MAPC research protocols. METHODS: Myocardial infarction was induced in Lewis rats by direct left anterior descending ligation followed immediately by direct injection into the infarct border zone of either Sprague-Dawley or Lewis MAPC from large-scale expansions. Echocardiography was performed to evaluate improvement in cardiac function, and immunohistochemistry was performed to identify MAPC within the infarct zone. RESULTS: Significant increases were observed in functional performance in animals transplanted with expanded MAPC compared with saline controls, with no significant differences between the syngeneic and allogeneic groups. Immunostaining demonstrated significant engraftment of expanded MAPC at 1 day after acute myocardial infarction, with <10% of either syngeneic or allogeneic cells remaining at 6 weeks. At this point there was no evidence of myocardial regeneration. However, a significant increase in vascular density within the infarct zone in MAPC-transplanted animals was observed, and MAPC were found to produce high levels of VEGF in culture. DISCUSSION: These findings support a model in which delivery of expanded MAPC following acute myocardial infarction results in improvement in cardiac function because of paracrine effects resulting in vascular density increases, as well as potentially other trophic effects, supporting newly injured cardiac myocytes. Thus transplantation with MAPC may represent a promising therapeutic strategy with application in the stimulation of neovascularization in ischemic heart disease.

Influence of local delivery of the protein tyrosine kinase receptor inhibitor tyrphostin-47 on smooth-muscle cell proliferation in a rat carotid balloon-injury model.

Smooth-muscle cell proliferation in response to arterial injury represents an important etiologic factor in restenosis after angioplasty. Tyrphostin-47, a protein tyrosine kinase inhibitor, inhibits smooth-muscle cell proliferation in vitro. In this study tyrphostin-47 was incorporated into matrixes to determine whether prolonged local delivery would result in a reduction of neointimal proliferation after arterial injury in a rat carotid balloon-injury model. A polymer matrix (polylactic polyglycolic acid copolymer and pluronic gel F-127, mean matrix weight 7.83 +/- 0.39 mg) was loaded with tyrphostin-47 (25% w/w). Release studies demonstrated delivery of 11% of the incorporated drug over a 21-day release period. In cell culture, tyrphostin-47 released from the polymer matrix produced a reduction in smooth-muscle cell proliferation (p < 0.0007). Balloon denudation injury of the left common carotid artery of 34 animals was performed. In 12 animals, polymer matrixes containing tyrphostin-47 were wrapped around the injured arteries to provide prolonged drug delivery (estimated dosage 28 micrograms/kg/24 hr); in 10 animals a polymer matrix without tyrphostin-47 was implanted; and in 12 animals only balloon injury was performed. The mean neointimal cross-sectional areas, luminal areas, and intima/media ratios were not significantly different among animals receiving local treatment with tyrphostin-47, sham polymer after injury, or balloon injury without polymer implantation. We conclude that despite inhibition of smooth-muscle cell proliferation by tyrphostin-47 in vitro, sustained local delivery of this tyrosine kinase inhibitor does not result in a reduction of neointimal proliferation in the rat carotid injury model.

Role of intimal hyperplasia and arterial remodeling after balloon angioplasty: an experimental study in the atherosclerotic rabbit model.

The arterial response to injury appears to be an important factor in the development or restenosis. Traditionally, intimal hyperplasia has been thought to be the primary mechanism responsible for restenosis. However, recent studies have found that arterial remodeling is a major determinant of lumen loss after balloon angioplasty. In this study, we evaluated the actual separate contributions of intimal hyperplasia and arterial remodeling to the restenotic process after balloon angioplasty in the atherosclerotic rabbit model. One month after induction of focal atherosclerotic lesions, femoral arteries were randomized to receive treatment with either two or six balloon inflations. One group of rabbits was euthanized immediately after angioplasty to evaluate the initial degree of injury with each dilation strategy ("acute group"), and the rest were euthanized 28 days after angioplasty ("chronic group"). Arteries that had been treated with six inflations had a higher injury score than those treated with two (4.0+/-3.0 versus 1.9+/-1.5, P<.05). In the chronic group, there was a significant increase in intimal area in the six inflation-treated arteries compared with the two-inflation group (0.617+/-0.06 versus 0.432+/-0.05 mm2, P<.004). However, there was no significant difference in lumen cross-sectional area between groups. By multivariate analysis, the most important independent predictor of lumen area was the external elastic lamina (EEL) area, although the degree of intimal thickening was also a significant independent predictor. There was a strong, positive correlation between intimal area and EEL area: the larger the intimal area, the larger the EEL area (r=.703, P<.0001). The intimal area was similar in both restenotic and nonrestenotic lesions. In contrast, EEL area was significantly larger (due to remodeling) in nonrestenotic lesions. This study confirms previous findings that the degree of injury determines the degree of neointimal proliferation and supports recent findings that chronic arterial remodeling plays a major role in the final lumen area. Understanding and controlling the remodeling process rather than concentrating solely on intimal hyperplasia may yield better results after balloon angioplasty in the future.

Influence of blockade at specific levels of the coagulation cascade on restenosis in a rabbit atherosclerotic femoral artery injury model.

BACKGROUND: The relation among the coagulation cascade, its individual proteins, and the response to vascular injury is largely undefined. We have evaluated the effect of four probes that block specific levels of coagulation cascade on neointimal hyperplasia in the atherosclerotic rabbit arterial injury model. METHODS AND RESULTS: Focal femoral atherosclerosis was induced by air-desiccation injury and hypercholesterolemic diet in 48 New Zealand White rabbits, followed by balloon angioplasty. Active-site inactivated factor VIIa (DEGR-VIIa), which blocks the binding of factor VIIa to tissue factor, was administered (n = 12 arteries) by intravenous bolus (1 mg/kg) at the time of balloon angioplasty and followed by infusion of 50 micrograms.kg-1.h-1 for 3 days; for the control (n = 13 arteries), 150 U heparin was injected as bolus and followed by infusion of saline at 50 microL.kg-1.min-1. Recombinant tissue factor pathway inhibitor (TFPI), which binds factor Xa and inhibits the tissue factor-factor VIIa complex and factor Xa, was given as a 1 mg/kg bolus followed by 15 micrograms.kg-1.min-1 infusion for 3 days (n = 17 arteries). Recombinant tick anticoagulant peptide (TAP; n = 15 arteries) and hirudin (n = 14 arteries), which block factor Xa and thrombin, respectively, were administered as a 1 mg/kg bolus followed by 5 micrograms.kg-1.min-1 infusion for 3 days. These three groups had their own controls (n = 14 arteries). There were no differences among treatment groups in preangioplasty and postangioplasty minimal luminal diameter (MLD) by angiography. The mean MLD 21 days after balloon angioplasty was significantly different between control and DEGR-VIIa-treated groups (0.74 +/- 0.25 and 1.24 +/- 0.27 mm, respectively; P = .0001) and between the TFPI-treated group and others (0.88 +/- 0.21 mm for control, 0.97 +/- 0.22 mm for hirudin-treated, 0.98 +/- 0.14 mm for TAP-treated, and 1.32 +/- 0.21 mm for TFPI-treated arteries; P = .0001 by ANOVA). By quantitative histological analysis, the ratio of neointimal cross-sectional area compared with the area of internal elastic lamina in the DEGR-VIIa-treated group was significantly less than control (0.48 +/- 0.12 versus 0.67 +/- 0.12, P = .0001), and the ratio of neointimal cross-sectional area to the area demarcated by the internal elastic lamina of the TFPI-treated group was significantly reduced compared with the other groups (0.46 +/- 0.20 for TFPI-treated, 0.67 +/- 0.15 for hirudin-treated, 0.61 +/- 0.15 for TAP-treated, and 0.64 +/- 0.13 for control groups; P = .003). CONCLUSIONS: Treatment with DEGR-VIIa or TFPI for 3 days in this rabbit atherosclerotic injury model reduced angiographic restenosis and decreased neointimal hyperplasia compared with controls. These findings highlight the importance of early initiators of the extrinsic coagulation pathway, especially factor VII and tissue factor, in the response to arterial injury.

Role of leukocytes in neointimal formation after balloon angioplasty in the rabbit atherosclerotic model.

BACKGROUND: Adherence and transendothelial migration of circulating leukocytes is one of the initial events after vascular injury. This process is mediated principally by the expression of integrins (CD11/C18) on the cell surface, which interact with their counterparts in the vessel wall cells. In order to determine the role of leukocytes in the development of neointimal thickening after balloon angioplasty, a monoclonal antibody (R15.7) against leukocyte adherence glycoprotein CD18 was used. METHODS: Femoral artery atherosclerotic lesions were induced in 20 New Zealand White rabbits, which were subjected to balloon angioplasty 28 days thereafter. Twelve hours before and 48 h after balloon angioplasty, 2 mg/kg body weight anti-CD18 or vehicle was randomly injected intravenously. Twenty-one days later the rabbits were killed and morphometric analysis performed. Measurement of functional activity of R15.7 in rabbit sera was performed, analyzing the capacity of the serum sample to inhibit aggregation of JY cells. RESULTS: The serum obtained from monoclonal antibody-treated rabbits showed more than 50% inhibition of cell aggregation at the time of balloon angioplasty. No effect on cell aggregation was seen in the sera of control rabbits. By angiography, there was no difference in lumen diameter and percentage stenosis at follow-up between the two groups. On morphometric analysis, there were no differences in the cross-sectional areas of intima, media, and lumen between the two treatment groups. The percentage cross-sectional area of intima was also similar in the two groups (0.672 +/- 0.04 versus 0.628 +/- 0.04). CONCLUSIONS: Blocking the CD18/CD11 glycoprotein pathway for leukocyte adhesion with a specific monoclonal antibody did not decrease the restenotic process after balloon angioplasty in the atherosclerotic rabbit arterial injury model.