DNA microarray-based gene expression profiles of cytomegalovirus infection and acute rejection in liver transplants.

An association between cytomegalovirus (CMV) infection and alloresponse has been suggested. CMV increases inflammation and adhesion molecule expression in graft, and induces cytokines and growth factors, linked with transplant vasculopathy and chronic rejection. We have investigated the gene expression of various inflammatory factors in the CMV-associated immune response and compared this with the immune response of acute rejection in liver transplants by using DNA microarray technology. Gene expression was studied at mRNA level in biopsies from liver transplant patients experiencing CMV infection or acute rejection. RNA extracted from liver grafts after reperfusion was used as control material. Among the strongly upregulated genes in the specimens obtained from liver transplants during CMV infection were IFN-gamma, caspases 1 and 3, granzymes A and B, TGF-beta receptors II and III, IL-10 receptor alpha, VCAM-1, TNF receptor, IL-4, TNF-alpha, IL-10, IL-2 receptor beta, IL-1beta, PDGF-receptor beta, vascular adhesion protein-1, TGF-beta2, and ICAM-1. In biopsies with acute liver allograft rejection, the most significantly upregulated genes were MHC class II, IFN-gamma, caspases 1 and 3, IL-2R beta and gamma, granzymes A and B, VLA-4, L-selectin, E-selectin, VCAM-1, and IL-1beta. Upregulated genes common for CMV and alloresponse were granzyme A and B, E-selection, IFN-gamma, VCAM-1, VLA-4, TNF, caspases 1, 3, and 8, and PDGF. Microarray analysis defined different entities in the immune responses of CMV infection and acute rejection. The differences and similarities of the gene expression profiles related to those in CMV infection and rejection may help to understand the intragraft immunologic events.

Cyclosporine induces myocardial connective tissue growth factor in spontaneously hypertensive rats on high-sodium diet.

BACKGROUND: The introduction of cyclosporine (CsA) has led to an improvement in the prognosis of solid organ transplantation. However, drug-induced hypertension and nephrotoxicity, associated with the development of atherosclerosis and coronary heart disease, still worsen the long-term outcome of CsA-treated patients. Whether the CsA-induced myocardial changes are associated with the induction of connective tissue growth factor (CTGF), a recently found polypeptide implicated in extracellular matrix synthesis, is not known. METHODS: Spontaneously hypertensive rats (8-9 weeks old) were treated with CsA (5 mg x kg(-1) x d(-1) subcutaneously) for 6 weeks. The influence of angiotensin-converting enzyme inhibition (enalapril 30 mg x kg(-1) x d(-1) orally) and angiotensin-1 receptor blockade (valsartan 3 and 30 mg x kg(-1) x d(-1) orally) on CsA toxicity was also investigated. Myocardial morphology was examined, and vascular lesions were scored. Localization and the quantitative expression of CTGF, as well as collagen I and collagen III, mRNA were evaluated by in situ hybridization and Northern blot. RESULTS: CsA-induced hypertension and nephrotoxicity were associated with myocardial infarcts and vasculopathy of the coronary arteries. CsA increased myocardial CTGF, collagen I, and collagen III mRNA expressions by 91%, 198%, and 151%, respectively. CTGF mRNA expression colocalized with the myocardial lesions. Blockade of the renin-angiotensin system prevented vascular damage and the CsA-induced CTGF, collagen I, and collagen III mRNA overexpressions in the heart. CONCLUSIONS: CsA increases CTGF, collagen I, and collagen III mRNA expressions in the heart. The induction of CTGF gene is mediated, at least in part, by angiotensin II.

Cytomegalovirus infection, viral DNA, and immediate early-1 gene expression in rejecting rat liver allografts.

BACKGROUND: Cytomegalovirus (CMV) infection has been linked to acute and chronic rejection. We have previously shown that concomitant rat cytomegalovirus (RCMV) infection increases portal inflammation and bile duct destruction in rejecting rat liver allografts. Many of the pro-inflammatory effects of CMV have been attributed to the immediate early (IE) proteins of CMV. We wanted to investigate whether RCMV and IE-1 gene expression persist in the liver graft in our model. METHODS: Liver transplantations were performed from PVG (RT1c) into BN (RT1n) rats. One day after transplantation, the rats were infected with RCMV. No immunosuppression was given. The graft infection was studied by viral culture, immunofluorescence, DNA in situ hybridization and RT-PCR for the detection of IE-1 mRNA at various time points. RESULTS: RCMV caused an active infection from 5 days to 2 weeks after transplantation, during which infectious virus was found in the graft. Thereafter the cultures were negative. RCMV antigens and DNA were found in hepatocytes, endothelial, inflammatory, and bile duct cells during the active infection. At 4 weeks, RCMV DNA positive hepatocytes, endothelial, inflamma tory, and bile duct cells could still be found, but in much smaller quantities. IE-1 mRNA expression was, however, only detected during the active infection, not at 4 weeks postinfection. CONCLUSIONS: RCMV IE-1 expression does not persist in the graft after the active infection, although some viral DNA can be detected in the graft up to 4 weeks. In our model, the CMV-induced increase in graft damage does not seem to require the continued expression of IE-1.

Expression and activity of matrix metalloproteinase-2 and -9 in experimental granulation tissue.

The restoration of functional connective tissue is a major goal of the wound healing process which is probably affected by matrix-modifying enzymes. To evaluate the spatial and temporal expression of matrix metalloproteinases (MMP) MMP-2 and MMP-9 and to study the regulation of MMP-2 in wound healing, subcutaneously implanted viscose cellulose sponges in rats were used to induce granulation tissue formation for up to 3 months. MMP-2 mRNA expression was seen throughout the experiment and it was highest after 2 months. MMP-9 gene expression was low between days 8-21 and increased after 4 weeks of granulation tissue formation. Membrane-type 1 MMP (MT1-MMP) mRNA was upregulated early and tissue inhibitor 2 of MMP (TIMP-2) mRNA later during wound healing. In in situ hybridization the expression of MMP-2 mRNA was seen mostly in fibroblast-like cells and MMP-9 mRNA in macrophage-like cells. MMP-9 immunoreactivity was detected in the polymorphonuclear leukocytes and macrophage-like cells on days 3-8. MMP-9 proteolytic activity was observed only on days 3-8. The active form of the MMP-2 increased up to day 14, whereafter it remained at a constant level, whereas latent MMP-2 did not show any apparent changes during the experimental period. We conclude that MMP-2 is important during the prolonged remodelling phase, whereas the gelatinolytic activity of MMP-9 was demonstrated only in early wound healing, and the MMP-9 gene is upregulated when the granulation tissue matures.

Matrix metalloproteinases 2 and 9 in indomethacin-induced rat gastric ulcer.

The restoration of functional connective tissue is a major goal of the wound healing process. The 72- and 92-kD gelatinases (MMP-2 and MMP-9) are extracellular matrix metalloproteinases (MMPs), which are known to degrade type IV and V collagens and gelatin, and have a potential role in wound healing. The spatial and temporal gelatinolytic activities of MMP-2 and MMP-9 were analyzed as a function of ulcer age, in homogenates of rat, indomethacin-induced, chronic gastric ulcers. The rats were sacrificed on 1, 3, 7, 12, 18, 24 and 28 days after subcutaneous indomethacin injections. Zymographic analyses revealed elevated activation of MMP-9 and latent and active MMP-2 in gastric ulcers, when compared to gastric tissue from non-indomethacin-treated rats. The intact tissue and tissue from ulcerous lesions contained MMP-2. The highest activity of MMP-2 was found in 3 day gastric ulcers and returned to the control level by day 24. MMP-9 was not present in the intact tissue and the highest gelatinolytic activity of MMP-9 was also observed on the 3rd day after administration of indomethacin. The activity thereafter decreased and returned to the control level by day 24. In situ hybridization was used to evaluate which cells synthesize MMP-2 and MMP-9. MMP-2 was seen mostly in fibroblast-like cells in the submucosa and MMP-9 in macrophage-like cells in the mucosa on the margins of the ulcers. Thus, we conclude that these two MMPs seem to have different functions during the gastric ulcer injury/healing process. MMP-2 may participate in the physiological turnover of the gastric extracellular matrix, whereas MMP-9 may be important in the early phase of gastric ulcer formation and also in the healing process.

Relevance of sensitivity testings (MIC) of S. aureus to predict the antibacterial action in milk.

Bacterial susceptibility testings were carried out in parallel Iso-sensitest broth (ISB) and bovine milk cultures using 16 antibacterials and 4 sensitive strains of mastitic isolates of Staphylococcus aureus. Bacterial activities were analyzed by continuous turbidity monitoring (broth cultures), continuous fluorometric monitoring of the resazurin-reducing redox activity, and by analyzing the triphenyltetrazolium (TTC)-reducing capacity at the end of the incubation period. To obtain an equipotent bacteria-suppressing activity, milk cultures required in general several times more antibiotic than the respective ISB cultures. Antibacterial activities of sulfadoxine-trimethoprim, vancomycin, novobiocin, macrolides, aminoglycosides and oxytetracycline were most effectively suppressed by milk. Aminoglycosides suffered additionally from reduction of oxygen in the incubation environment. The beta-lactams (penicillin G, oxacillin, cephalothin, ceftiofur, ampicillin, ampicillin-clavulanic acid), gentamicin and enrofloxacin showed extremely variable sensitivity results depending on the S. aureus/milk combination.

Type V collagen in experimental granulation tissue.

To evaluate the spatial and temporal expression of type V collagen in a wound healing model, subcutaneously implanted viscose cellulose sponges in rats were used to induce granulation tissue formation. Analyses on granulation tissue were carried out on days 3, 5, 8, 14, 21, 30, 59 and 84. Acid soluble collagens were extracted and the relative amount of type V collagen was quantified by SDS-PAGE. Specific antibodies to type I, III and V collagens were used in immunohistochemistry and specific RNA probes to proalpha1(I), proalpha1(III) and proalpha1(V) collagen in in situ hybridization. Type V collagen content increased relative to type I and III collagens up to day 8 and remained at the same level for up to the three months. Type V collagen was expressed strongly in blood vessel walls as seen in immunohistochemistry. In situ hybridization showed that all of the three types of collagen were expressed mostly in fibroblast-like cells and also in rounded cells, especially type V collagen. In conclusion, type V collagen was seen in the wound healing model in increasing amounts from day 3 onwards, its localization being highly associated with blood vessels in granulation tissue and it was synthesized by fibroblast-like and rounded cells.

Cloning of cDNA for rat pro alpha1(V) collagen mRNA. Expression patterns of type I, type III and type V collagen genes in experimental granulation tissue.

A cDNA clone for rat pro alpha1(V) collagen mRNA was constructed using PCR amplification, with primers based on human and hamster COL5A1 gene sequences. The clone pRCVA1 is 560 nucleotides long and it encodes for the carboxy propeptide of type V procollagen. Homology shared with type I collagen sequence was 64%, with type II collagen 65% and with type III collagen 61%. To evaluate the spatial and temporal expression of type V collagen mRNA in wound healing model, subcutaneously implanted viscose cellulose sponges in rats were used to induce granulation tissue formation. Analyses on granulation tissue were carried out on days 5, 8, 14, 21, 30, 59 and 84. Specific cDNA probes to pro alpha1(I), pro alpha1(III) and pro alpha1(V) collagen mRNA were used in slot blot, Northern and in situ hybridization. Type I collagen gene expression was upregulated at the initial stage of wound healing, type III collagen gene expression was constant and from the day 14 onwards type I and III collagen gene expressions were at the same level. Type V collagen gene expression was seen at every time point studied but at a considerably lower level than type I and III collagens. In situ hybridization showed that type V collagen was expressed in two different cell types. In conclusion, type V collagen was expressed in the wound healing model from at least day 5 onwards and it was synthesized by fibroblast-like and rounded cells.

Connective tissue growth factor in indomethacin-induced rat gastric ulcer.

The healing of gastric ulcers requires not only the complete epithelial covering but also the restitution of connective tissue. Transforming growth factor-beta (TGF-beta) and its downstream mediator, connective tissue growth factor (CTGF), are potent stimulators for connective tissue formation during wound healing. The expression of TGF-beta, CTGF and type III collagen mRNA in indomethacin-induced gastric ulcers in rat, was investigated by Northern blot analysis. We also examined the localization of CTGF producing cells by in situ hybridization. Northern blot analysis showed expression of TGF-beta mRNA on days 1 and 3 after indomethacin administration, expression of CTGF mRNA on days 1, 3 and 7 and type III collagen mRNA expression on days 1, 3, 7 and 12, respectively. Control animals showed no expression of TGF-beta, CTGF or type III collagen mRNA. In situ hybridization showed CTGF mRNA positive cells on days 1, 3 and 7 after ulcer induction in fibroblast-like cells and in some of the blood vessels. Thus our findings indicate that growth factor CTGF, together with TGF-beta, participates in gastric ulcer healing by regulating connective tissue formation and angiogenesis. These results are compatible with the role of CTGF as a downstream mediator of TGF-beta effects.

Major histocompatibility complex protein expression on pancreas and pancreatic islet endocrine cell subsets.

To determine which cells in the human and rat pancreas and islets express class I and II histocompatibility complex proteins, double indirect immunofluorescence and the Staphylococcus aureus rosette method were used. Islet preparations used permitted positive endocrine and class I or II protein identification. Class I and II proteins were expressed in pancreatic vascular endothelium and passenger cells of the mononuclear cell type. Antibodies directed to class I or beta 2 microglobulin reacted with dispersed islet B, A, and D cells, whereas class II protein antibodies were associated with only islet B and A cells. Islet B-cell class II proteins decreased after 20 days of in vitro culture. These results suggest that 1) a variety of pancreas and islet nonendocrine cells can express class I and II proteins, 2) normal pancreatic islet endocrine cells not only express class I proteins but also class II proteins, and 3) in vitro islet culture results in reduced expression of class II proteins by islet B cells.

Airway anastomotic healing in the rat tracheal autograft.

The healing of airway anastomoses after tracheal autotransplantation was studied in a rat model. Tracheal autotransplantation in length of five tracheal cartilaginous rings was performed in 46 PVGr1 female rats. The animals were sacrificed and divided into six groups as follows: 0-day control group, and 3-, 7-, 14-, 21- and 28-day study groups (n = 6-7/group). In laser Doppler measurements, blood flow was significantly increased in the lower anastomosis after day 7 and in the upper anastomosis after day 21 compared with the control group (p < 0.05). The breaking strength of the tracheal autograft increased after day 7 compared with the control group (p < 0.05). The total collagen content of the lower anastomosis was significantly decreased on days 3 and 7 compared with the control group (p < 0.05), but thereafter it increased constantly. In the upper anastomosis on days 3 and 7, there were significant histological alterations, especially in the tracheal epithelium, compared with the control group (p < 0.05). Tracheal anastomosis is most vulnerable during the first 7 days.

Distribution of the major histocompatibility complex antigens on different cellular components of human liver.

Monoclonal mouse antibodies to the "framework" determinants of the class I and II molecules of the major histocompatibility complex (MHC) were used to demonstrate the presence of the MHC antigens in human liver. First, the localization of these antigens was demonstrated from frozen section histology with indirect FITC immunofluorescence and the cell component(s) binding the mouse antibody were identified by rabbit marker antisera and indirect TRITC immunofluorescence. Second, the antigen expression on the cell surface was analyzed by the Staphylococcus aureus rosette method from cytological cell smears. All antibodies reacted with cells in the liver sinusoids, both with the Kupffer cells and at least partially with the sinusoidal endothelial cells. The same antisera reacted also with the bile duct cells, though weaker, and with some stromal cells in close proximity of the blood vessels. The vascular endothelial cells of hepatic artery, hepatic vein, and portal vein displayed no reaction. Thus human liver differs strikingly from, e.g., human kidney, where the vascular endothelial cells contain large amounts of MHC antigens on the cell surface. This difference may be one explanation to why liver allografts are less promptly rejected than renal allografts in man.

Distribution of the major histocompatibility complex antigens in human and rat kidney.

We have compared the distribution of the major histocompatibility complex (MHC) antigens in human and rat kidney using monospecific antisera to class I and II antigens of the MHC. FITC/TRITC double immunofluorescence was used to demonstrate these antigens in frozen sections and the Staphylococcus aureus Cowan I rosette assay on the cell surface. In both species, the MHC antigens were prominently present on the passenger leukocytes. Immunofluorescence analysis of human kidney demonstrated that the class I, beta 2-microglobulin (beta 2m), and class II antigens were present in the vascular endothelial cells and class I antigens in the renal tubular cells. The Staphylococcus assay demonstrated that these antigens were also exposed on the respective cell surfaces. In clear contrast, in the rat, class I, the beta 2m, and class II antigens were absent from the kidney vascular endothelium of large vessels and intertubular capillaries; however, large amounts of class II antigens were seen inside the proximal renal tubular cells. The Staphylococcus assay indicated that none or very little of these antigens were exposed on the kidney parenchymal cell surface. These differences may explain why rat renal transplants are relatively non-immunogenic and easily accepted, whereas human renal transplant recipients must be immunosuppressed ad infinitum.

Detrimental effect of dietary sodium and beneficial effect of dietary magnesium on glomerular changes in cyclosporin-A-treated spontaneously hypertensive rats.

BACKGROUND: Cyclosporin A (CsA) causes renal magnesium wasting, hypertension, and occasionally irreversible renal damage. We examined the effect of dietary sodium and magnesium on renal histology in spontaneously hypertensive rats (SHR) receiving CsA. METHODS: Forty-six 8-week-old SHR were divided into six groups and given different dietary levels of sodium (low 0.3%, high 2.6%) and magnesium (low 0.2%, high 0.6%). Low-dose CsA (5 mg/kg/d) was given subcutaneously for 6 weeks in four groups. Systolic blood pressure, serum creatinine, degree of proteinuria, and renal tissue CsA and calcium concentrations were determined. Kidney wet weight to total body-weight ratio was calculated as an index of renal hypertrophy. Renal histological alterations were scored according to glomerular changes: 100 glomeruli were assigned for severity of change a score from 0 to 3. The number of affected glomeruli was multiplied by the damage score to obtain a damage index. RESULTS: In the CsA-treated high-sodium diet group systolic blood pressure and glomerular damage index were increased, and renal hypertrophy was the most common. These changes were prevented by oral magnesium supplementation. The glomerular damage index correlated positively with increases in systolic blood pressure, serum creatinine, proteinuria, and renal calcium concentration. CONCLUSIONS: Dietary sodium enhanced CsA-induced functional and morphological renal changes in SHR and aggravated hypertensive renal arteriolar and glomerular lesions. Dietary magnesium supplementation protected against the deleterious effects of sodium and CsA.

Time-related effects of cytomegalovirus infection on the development of chronic renal allograft rejection in a rat model.

Cytomegalovirus (CMV) infection is a risk factor for chronic allograft rejection. The histological findings of chronic renal allograft rejection include inflammation, vascular intimal thickening, glomerulosclerosis, tubular atrophy and fibrosis. We have developed a rat model of renal transplantation in which transplants, after an early inflammatory episode, end up with chronic rejection within 60 days. During the early phase of the process in this model, CMV increased and prolonged the inflammatory response, the expression of adhesion molecules, intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 and their ligands, lymphocyte function antigen-1 and very late antigen-4 in the graft. Simultaneously, the production of various growth factors, such as transforming growth factor beta, platelet-derived growth factor and connective tissue growth factor was upregulated, which induce smooth muscle cell proliferation in the vascular wall and collagen synthesis by fibroblasts. Chronic rejection developed within 20 days in CMV-infected grafts. In summary, CMV infection accelerated and enhanced the early immune response, the induction of growth factors and collagen synthesis, and the development of chronic rejection in renal allografts.