Donor MHC gene to mitigate rejection of transplantation in recipient mice.

BACKGROUND: Donor organ rejection continues to be a significant problem for patients receiving transplants. We therefore tested whether transferring a donor's major histocompatibility complex (MHC) gene to the recipient would mitigate the rejection of transplanted hearts in mice. METHODS: H-2K(k) gene from donor mice was amplified using nested polymerase chain reaction (PCR) and ligated into a mammalian expression vector, which was then transfected into thymus ground mass cells collected from the recipients. Clones stably expressing the transgene were then injected into the recipients' thymus visualized using ultrasound. Control mice were administered cells previously transfected with empty vector. Following heart transplantation, cardiac activity was monitored electrocardiographically. Recipient thymus cells were tested for MHC antigenicity using flow cytometry and spleen cells were subjected to mixed lymphocyte culture tests. Finally, the transplanted hearts were sectioned, stained and examined under light microscopy. RESULTS: Southern analysis following nested PCR revealed clear expression of H-2K(k) gene. Following transplantation, electrocardiosignals were detectable highly significantly longer in recipients administered thymal cells expressing donor H-2K(k) than in those receiving control cells. Flow cytometric analysis using an anti-H-2K(k) antibody confirmed its expression in H-2K(k) treated recipients but not in control mice. Mixed lymphocyte cultures containing H-2K(k) treated cells showed significantly less proliferation than those containing control cells. Hearts from control mice showed substantially greater lymphocyte infiltration than those from H-2K(k) treated mice and large areas of necrosis. CONCLUSION: Rejection of transplanted hearts can be mitigated substantially by introducing the donor's MHC into the recipient.

[Effects of bone marrow mesenchymal stem cells on bleomycin induced pulmonary fibrosis in rats].

OBJECTIVE: To study the effects of bone marrow mesenchymal stem cells (MSC) on pulmonary fibrosis. METHODS: Bone marrow MSC were harvested from 6 week old male SD rats. Forty-eight female SD rats were randomly divided into six groups. The pulmonary fibrosis models were made by intratracheal instillation of bleomycin (5 mg/kg in 0.3 ml normal saline). The normal controls received intratracheal instillation of NS instead of bleomycin. On the 1st and 7th day after bleomycin administration, the rats received MSC infusion or a same amount of phosphate buffer solution (PBS) as controls via the tail vein, respectively. The rats were sacrificed by the 28 day of experiment, and the pathologic changes and hydroxyproline contents of the lung tissues were investigated. The sry gene of Y chromosome was detected by polymerase chain reaction (PCR). RESULTS: For rats receiving MSC on the 1st and 7th day after bleomycin administration, the lung fibrotic scores were 1.0 +/- 0.2 and 1.6 +/- 0.5, respectively, significantly decreased as compared with rats receiving no MSC (2.5 +/- 0.5 & 2.3 +/- 0.8, respectively). The hydroxyproline contents of lung tissue were (83 +/- 17) microg/mg and (96 +/- 20) microg/mg, also significantly decreased as compared with rats receiving no MSCs [(123 +/- 32) microg/mg & (127 +/- 34) microg/mg, respectively]. Earlier administration of MSCs resulted in more significant improvement of lung injury. The sry gene (322 bp) was detected in lungs of female rats receiving MSC on the first day of bleomycin induced lung injury. CONCLUSIONS: MSC may be involved in the repair of lung injury, especially in the early stage. MSCs are effective in preventing bleomycin induced lung injury and fibrosis.

[High-level expression of phenylalanine ammonia-lyase in Lactococcus Lactis via synthesized sequence based on bias codons].

To construct a safer and more efficient gene engineering Lactococcus Lactis for expressing phenylalaine ammonia lyase (PAL) which will be benefit for PKU therapy, pal cDNA of Parsly and synthesized sequence based on Lactococcus Lactis bias codons were recombined into two Lactococcus Lactis NICE systems. The activities of the expressed PAL were detected, and the effect of Lactococcus Lactis bias codons on the expression of exterior protein was analyzed. The results showed that the expression level of PAL was increased by using Lactococcus Lactis bias codons in both Lactococcus Lactis NICE systems. Through which several safer andmore efficient strains of the gene engineering Lactococcus Lactis were obtained.

[Relationship between MDR1 gene polymorphism and blood concentration of tacrolimus in renal transplant patients].

OBJECTIVE: To investigate the relationship between MDR1 exon 21 and exon 26 polymorphism and whole blood concentration of tacrolimus (FK506) in renal transplant patients. METHODS: Blood samples were collected from 86 renal transplant patients who received FK506 peri-operationally. PCR-RELP was used to determine the MDR1 genotype. The patients were divided into 3 subgroups for every position: GG, GT, and TT in exon 21; and CC, CT, and TT in exon 26. Three, six, and twelve months after the transplantation ELISA was used to measure the whole blood concentration of FK506. The FK506 concentrations standardized by dosage and body weight (FK506 concentration per dose/kg) were compared among the 3 subgroups within the MDR1 exon 21 and exon 26 groups. RESULTS: Of the 86 patients 26 (30.2%), 35 (40.7%), and 25 (29.1%) were carriers of GG, GT, and TT in exon 21, and 26 (30.2%), 35 (40.7%), and 23 (26.8%) were carriers of CC, CT, and TT in exon 26. MDR1 exon 26 C3435T was in significant linkage disequilibrium with MDR1 exon 21 G2677T. Three, six, and twelve months after the transplantation a significant correlation between the whole blood FK506 concentration per dose/day and MDR1 exon 21 and exon 26 genotypes. For exon 21 there were significant differences among the 3 subgroups (all P < 0.01). The ratio for the patients with GG was remarkably lower than that of those with GT and TT, and the ratio with GT was also lower than the patients with TT (P < 0.05). For exon 26, there was also a significant difference among the 3 subgroups (all P < 0.01). The ratio for the patients with CC was remarkably lower than those of the patients with CT and TT, and the ratio of CT was also lower than that of TT (P < 0.05). CONCLUSIONS: The MDR1 gene polymorphism is correlated with the whole blood concentration of FK506. To obtain the similar blood concentration of FK506, the patients with GG and CC should take the drug at a higher dose than those with Ct and TT.

Transient and ectopic expression of lumican by acinar cells in L-arginine-induced acute pancreatitis.

Lumican is a member of a small leucine-rich proteoglycan family. We previously found that lumican mRNA and its protein were ectopically and highly expressed in acinar cells in chronic pancreatitis (CP)-like lesions close to pancreatic cancer cells. CP-like lesions are characterized by acinar and ductal-ductular cell proliferation with expanding fibrosis. This finding suggests that lumican is ectopically synthesized by acinar cells under chronic inflammatory conditions and plays a role in fibrosis of the pancreas. However, the expression and role of lumican in acute inflammatory changes of the pancreas are not completely elucidated. In the present study, we aim to clarify whether lumican mRNA and its protein are expressed in exocrine or endocrine components in acute pancreatitis (AP). For experimental AP, Wistar rats received an intraperitoneal injection of L-arginine. Western blot analysis showed an intense 50-kDa band corresponding to the lumican protein in normal and L-arginine-treated rat pancreas. After L-arginine injection, three intense bands at 42, 57, and 92 kDa were detected on day 1. Immunohistochemically, the lumican protein was localized in ductal and a few centroacinar cells in the normal pancreas. After L-arginine injection, an immature fibrosis with fragmented and loose collagen fibers was observed in AP on day 4 and lumican immunoreactivity was detected in the collagen fibers. Lumican mRNA was faintly detected in islet cells in the normal pancreas, but it was strongly expressed in acinar and islet cells on day 1. Furthermore, lumican mRNA was expressed in many proliferating fibroblasts on day 4 by in situ hybridization. These findings indicate that lumican is transiently synthesized by acinar cells and fibroblasts in AP. Lumican proteins synthesized by acinar cells, islet cells, and fibroblasts may contribute to immature and transient fibrosis of AP.

Expression of lumican in human colorectal cancer cells.

Lumican is a member of a small leucine-rich proteoglycan family and its overexpression in human breast cancer tissues is reported to influence the growth of cancer cells. In the present study, we aimed to clarify the expression of lumican mRNA and its protein in human colorectal cancer cell lines and their localization in normal and cancerous colorectal tissues. Reverse transcription-polymerase chain reaction and western blot analysis revealed lumican mRNA and its protein expression in COLO 205, DLD-1, HCT-15, SW 480 and WiDr colorectal cancer cell lines. The lumican in colorectal cancer cells had non-sulfated or poorly sulfated polylactosamine side chains. Based on its immunoreactivity, the lumican protein was found to be localized in fibroblasts and stromal tissues of normal colorectal tissues, but not in colorectal epithelial cells. In colorectal cancer tissues, the lumican was strongly localized in cancer cells in eight of 12 cancer cases. The lumican protein was also localized in epithelial cells with mild reactive dysplasia and fibroblasts adjacent to cancer cells. Lumican mRNA was expressed in cancer cells and adjacent fibroblasts, and epithelial cells. These findings may indicate that the lumican protein synthesized by cancer cells, fibroblasts and epithelial cells with mild reactive dysplasia found adjacent to cancer cells may affect the growth of human colorectal cancer cells.

Differential distribution of fibroblast growth factor (FGF)-7 and FGF-10 in L-arginine-induced acute pancreatitis.

The regenerative process of the pancreas after acute pancreatitis (AP) is characterized by acinar and ductal cell proliferation with synthesis and transient deposition of extracellular matrices. Various growth factors were reported to be highly expressed in AP, but their regulation has not yet been clarified. Fibroblast growth factor (FGF)-7, also known as keratinocyte growth factor (KGF), and FGF-10 are members of the FGF family and show high structural homology and similar biological characteristics. Both are mainly synthesized by mesenchymal cells and stimulate epithelial cells via KGF receptor (KGFR) which is a splice variant of FGFR-2. In the present study, we attempted to immunohistochemically determine the localization of FGF-7 and FGF-10 in pancreatic tissues of an L-arginine-induced rat pancreatitis model. Furthermore, highly specific KGFR antibodies were prepared and used for Western blot analysis and immunohistochemistry. In the normal pancreas, FGF-7 was localized in alpha cells of islets, but FGF-10 was not detected. KGFR was also localized in islet cells, ductal cells, and centroacinar cells in the normal pancreas. In the pancreatic tissues of rats with L-arginine-induced pancreatitis, FGF-7 was localized in alpha cells, whereas FGF-10 was expressed in vascular smooth muscle cells (VSMCs). KGFR was not expressed in centroacinar cells and its level decreased after L-arginine treatment. However, KGFR was detected instead in some acinar cells and VSMCs in addition to islet cells. These findings suggest that FGF-7 and FGF-10 contribute to the regeneration and differentiation of acinar cells and angiogenesis in AP through KGFR.