Hengjie Xu

Effects of Blocking the Chemokine Receptors, CCR5 and CXCR3, with TAK-779 in a Rat Small Intestinal Transplantation Model

Background. The effect of blocking lymphocyte chemokine receptors with TAK-779 was investigated using a rat intestinal transplantation model. Methods. Dark Agouti rat small intestines were heterotopically transplanted into Lewis rats. The recipients were treated with TAK-779 (10 mg/kg per day) by subcutaneous injection. Graft survival, histologic changes, mixed lymphocyte reaction, and antibody production were examined. Furthermore, expression of the chemokine receptors on the graft-infiltrating lymphocytes in the mesenteric lymph node (MLN) and Peyer’s patches (PP) were measured using fluorescence-activated cell sorter analysis. Results. Average duration of survival was greater for group T (with TAK-779: 9.8±1.4) than group A (without TAK-779: 7.0±0.6). Histologic findings and immunohistochemistry of the graft were consistent with the prolonged survival in group T. In the fluorescence-activated cell sorter analysis, several CD4+ and CD8+ cells were significantly suppressed in the blood, spleen, and MLN of the recipient and in the PP of the graft on postoperative day (POD) 6, but recovered in recipient spleen and MLN by POD 9. However, double-staining of graft-infiltrating lymphocytes in MLN and PP showed a significant reduction in the numbers of T cells expressing CCR5 and CXCR3 by POD 9. On the other hand, mixed lymphocyte reaction and cytokine production, and the antidonor antibody titer were suppressed on POD 6 but not on POD 9. Conclusion. TAK779 diminished not only the number of the graft-infiltrating cells and their expression of CCR5 and CXCR3, but also the total number of recipient T cells that play a role in graft rejection. Further exploration of these effects will provide the novel treatment of the intestinal transplantation.

Studies of monkey complement: measurement of cynomolgus monkey CH50, ACH50, C4, C2 and C3

Abstract:  Background:  The cynomolgus monkey is commonly used as the recipient in transplantation experiments. However, study of the complement system of cynomolgus monkeys is lacking. In the present study, the complement system of cynomolgus monkeys was compared with that of humans, by checking hemolytic titers.

Analysis of the serine protease function of porcine factor I produced by liver cells for xenotransplantation.

The use of a bioartificial liver with pig liver cells in the treatment of fulminant hepatic failure has already begun as a clinical trial in several countries. Therefore, studies on plasma complement regulatory proteins of the pig are necessary, because the liver produces them. Complement factor I is a serine protease that cleaves C3b and C4b. The DNA sequences of factor I have been reported in many species, with the noted exception of pigs. In this study, porcine factor I was cloned and an open reading frame of 1794 base pairs were identified. The predicted amino acid sequence maintained a relatively high homology compared to those of other mammals, especially in the serine protease (SP) region. The cell membrane-bound forms of the porcine and the human SP domain of factor I were constructed. Amelioration of complement-mediated cell lysis by these molecules was then tested, using several kinds of sera and Chinese hamster ovary (CHO) cell transfectants. Both molecules had a suppressing effect on pig, human and dog complements, indicating little species-specificity. Further studies of other plasma complement regulatory proteins produced from pig liver cells will need to be considered as the primary feature of the pig bioartificial liver.

Investigation of cynomolgus monkey complement.

BACKGROUND The cynomolgus monkey is one of the most popular recipient animals in xenotransplantation experiments. However, studies of the cynomolgus monkey complement are rare. In the present study, based on the study that compared the hemolytic complement titer in cynomolgus monkeys with that in humans, the complement regulatory function of human decay accelerating factor (CD55) in both human and cynomolgus monkey sera was studied. METHODS Hemolytic complement titers in cynomolgus monkeys were calculated using the same methods as are used in humans. Next, the complement regulatory function of human DAF (CD55) in cynomolgus monkey serum was studied using porcine endothelial cells (PECs) and human DAF. RESULTS Of the complement titers tested, such as CH50, ACH50, C4, C2, and C3, the values were relatively high, except for the C4 titer. Human DAF on the surface of PEC resulted in nearly identical complement regulatory function in the human and cynomolgus monkey sera. CONCLUSIONS Human DAF showed nearly the same complement regulatory function in both human and cynomolgus monkey sera.