Objective To observe the intluence ot chemokine RANTES influence on cardiac allograft acute rejection caused by alloreactive memory CD4+ T cells (Tm) adoptive transfer.Methods Heterotopic heart transplantation (HTx) from Balb/c donors to C57BL/6 recipients was performed by anastomosis of the vessels of the neck.Mice undergoing heterotopic heart transplantation received either adoptive transfer of 1 × 106 CD4+ Tm from the spleen of alloantigen-primed C57BL/6 mice or no cells (control group).After the cardiac transplantation,the mean survival time (MST),mean histologic rank of rejection,relative gene expression and serum concentration of RANTES in the cardiac grafts.Results (1) The percentage of CD4+ Tm was 26.83％ at the spleen of alloantigenprimed mice; (2) The MST was 5.17 ± 0.17 days in the CD4+ Tm+ HTx group versus 7.76 ± 0.21 days at the HTx group (control group) (P＜0.01); (3) The histological tests revealed that mean histologic rank of rejection activity in the sections of cardiac allografts on the day 5 post grafting was grade 3.92 ± 0.08 in the HTx+ CD4+Tm group versus grade 2.67 ± 0.14 in HTx group (P＜0.01) ;(4) The relative gene expression level of RANTES was 2.6 ± 0.21 in the CD4+ Tm + HTx group,significantly higher than in the control group (P＜0.01) ; (5) The serum concentration of RANTES in the CD4+ Tm+ HTx group was 223.6 ± 16.79 pg/mL,higher than in the control group (120.7 ±9.47 pg/mL,P＜0.01).Conclusion Alloreactive CD4+ Tm contribute to the increased expression and secretion of RANTES,and cardiac allograft acute rejection was more extensive in the CD4 + Tm + HTx group.

OBJECTIVE: To analyze and discuss the feasibility of rabbit carotid artery treated with decellularization and photo-oxidation. METHODS: Sixty vascular slices of rabbit carotid artery were divided into a fresh group, a cryopreservation group, a glutaraldehyde group, and a decellularization plus photo-oxidation group 15 in each group. To evaluate the physical properties of all the rabbit carotid arteries by testing heat-shrinking temperature, tensile stress and the max elongation of each group. Then by buliding subcutaneous embedding model in SD rats we evaluated the biological stability and the anti-calcification function property of the above rabbit carotid arteries, and the detection means included HE stain, atomic absorption spectrometry and Von-Kossa calcium salt stain. RESULTS: The heat-shrinking temperature, tensile stress and the max elongation in the cryopreservation group were lower or shorter than those of the other groups and the difference had statistical significance (P<0.05). Although the heat-shrinking temperature and the tensile stress in the decellularization plus photo-oxidation group were lower or shorter than those in the glutaraldehyde group (P<0.05), the max elongation in the decellularization plus photo-oxidation group was much longer than that in the glutaraldehyde group (P<0.05). The rabbit carotid artery treated with decellularization plus photo-oxidation showed lower immunogenicity and better biological stability and better anti-calcification property compared with the other groups. CONCLUSION Decellularization associated with photo-oxidation is a suitable and novel protocol for small caliber artery allograft with a diameter of less than 6 mm which is unbreakable to mechanical properties and conducive to biological stability, which has a broad prospect.
Animals ; Blood Vessel Prosthesis ; Calcinosis ; prevention & control ; Carotid Arteries ; cytology ; transplantation ; Cell Separation ; methods ; Female ; Histocytological Preparation Techniques ; Male ; Oxidants, Photochemical ; pharmacology ; Oxidation-Reduction ; Rabbits ; Rats ; Rats, Sprague-Dawley ; Transplantation, Heterologous