Primary vascularization of the graft determines the immunodominance of murine minor H antigens during organ transplantation

Grafts can be rejected even when matched for MHC because of differences in the minor histocompatibility Ags (mH-Ags). H4- and H60-derived epitopes are known as immunodominant mH-Ags in H2(b)-compatible BALB.B to C57BL/6 transplantation settings. Although multiple explanations have been provided to explain immunodominance of Ags, the role of vascularization of the graft is yet to be determined. In this study, we used heart (vascularized) and skin (nonvascularized) transplantations to determine the role of primary vascularization of the graft. A higher IFN-γ response toward H60 peptide occurs in heart recipients. In contrast, a higher IFN-γ response was generated against H4 peptide in skin transplant recipients. Peptide-loaded tetramer staining revealed a distinct antigenic hierarchy between heart and skin transplantation: H60-specific CD8(+) T cells were the most abundant after heart transplantation, whereas H4-specific CD8(+) T cells were more abundant after skin graft. Neither the tissue-specific distribution of mH-Ags nor the draining lymph node-derived dendritic cells correlated with the observed immunodominance. Interestingly, non-primarily vascularized cardiac allografts mimicked skin grafts in the observed immunodominance, and H60 immunodominance was observed in primarily vascularized skin grafts. However, T cell depletion from the BALB.B donor prior to cardiac allograft induces H4 immunodominance in vascularized cardiac allograft. Collectively, our data suggest that immediate transmigration of donor T cells via primary vascularization is responsible for the immunodominance of H60 mH-Ag in organ and tissue transplantation.     

RhoB antibody alters retinal vascularization in models of murine retinopathy

Neovascularization in cancer or retinopathy is driven by pathological changes that foster abnormal sprouting of endothelial cells. Mouse genetic studies indicate that the stress-induced small GTPase RhoB is dispensable for normal physiology but required for pathogenic angiogenesis. In diabetic retinopathy, retinopathy of prematurity (ROP) or age-related wet macular degeneration (AMD), progressive pathologic anatomic changes and ischemia foster neovascularization are characterized by abnormal sprouting of endothelial cells. This process is driven by the angiogenic growth factor VEGF, which induces and supports the formation of new blood vessels. While injectable biologics targeting VEGF have been used to treat these pathological conditions, many patients respond poorly, prompting interest in other types of mechanism-based therapy. Here we report the preclinical efficacy of a monoclonal antibody that specifically targets RhoB, a signaling molecule that is genetically dispensable for normal physiology but required for pathogenic retinal angiogenesis. In murine models of proliferative retinal angiogenesis or oxygen-induced retinopathy, administering a monoclonal RhoB antibody (7F7) was sufficient to block neoangiogenesis or avascular pathology, respectively. Our findings offer preclinical proof of concept for antibody targeting of RhoB to limit diabetic retinopathy, ROP or wet AMD and perhaps other diseases of neovasculogenesis such as hemangioma or hemangiosarcoma nonresponsive to existing therapies.     

Therapeutic stem and progenitor cell transplantation for organ vascularization and regeneration

Emerging evidence suggests that bone marrow-derived endothelial, hematopoietic stem and progenitor cells contribute to tissue vascularization during both embryonic and postnatal physiological processes. Recent preclinical and pioneering clinical studies have shown that introduction of bone marrow-derived endothelial and hematopoietic progenitors can restore tissue vascularization after ischemic events in limbs, retina and myocardium. Corecruitment of angiocompetent hematopoietic cells delivering specific angiogenic factors facilitates incorporation of endothelial progenitor cells (EPCs) into newly sprouting blood vessels. Identification of cellular mediators and tissue-specific chemokines, which facilitate selective recruitment of bone marrow-derived stem and progenitor cells to specific organs, will open up new avenues of research to accelerate organ vascularization and regeneration. In addition, identification of factors that promote differentiation of the progenitor cells will permit functional incorporation into neo-vessels of specific tissues while diminishing potential toxicity to other organs. In this review, we discuss the clinical potential of vascular progenitor and stem cells to restore long-lasting organ vascularization and function.     

The role of suppressor cells in the induction of murine photoallergic contact dermatitis and in its suppression by prior UVB irradiation

Induction in mice of marked photoallergic contact dermatitis (PCD) to 3,3',4',5-tetrachlorosalicylanilide (TCSA) with UVA (320 to 400 nm) radiation requires pretreatment with cyclophosphamide (CY). Attempts to induce photoallergic contact dermatitis without CY result in only a small degree of sensitivity, accompanied by significant net splenic suppressor cell activity. These suppressor cells are antigen specific, inhibit the induction but not the elicitation of photoallergic contact dermatitis to TCSA, and are T lymphocytes. Exposure of mice to UVB (280 to 320 nm) radiation at a site distant from that of sensitization, before CY administration and sensitization, inhibits the development of photoallergic contact dermatitis. This is analogous to the suppression of allergic contact dermatitis (ACD) observed in mice after exposure to UVB radiation; such suppression is accompanied by the formation of antigen-specific splenic suppressor cells. However, in contrast to the findings with allergic contact dermatitis, splenic suppressor cells are not detected in mice that are treated with UVB radiation before CY administration and sensitization to TCSA. This is presumably because CY prevents their formation. This provides evidence that UVB-irradiated mice have a second form of anergy that is not mediated by suppressor cells.     

The role of CD154 in organ transplant rejection and acceptance

CD154 plays a critical role in determining the outcome of a transplanted organ. This simple statement is amply supported by experimental evidence demonstrating that anti-CD154 antibodies are potent inhibitors of allograft rejection in many rigorous transplant models. Unfortunately, despite intensive investigation over the past ten years, the precise mechanisms by which antibodies against CD154 exert their anti-rejection effects have remained less obvious. Though originally classified with reference to B-cell function, CD154-CD40 interactions have also been shown to be important in T cell-antigen-presenting cell interactions. Accordingly, CD154 has been classified as a T-cell co-stimulatory molecule. However, mounting data suggest that treatment with anti-CD154 antibodies does not simply block costimulatory signals, but rather that the antibodies appear to induce signalling in receptor-bearing T cells. Other data suggest that anti-CD154 effects may be mediated by endothelial cells and possibly even platelets. In fact, the current literature suggests that CD154 can either stimulate or attenuate an immune response, depending upon the model system under study. CD154 has secured a fundamental place in transplant biology and general immunology that will no doubt be the source of considerable investigation and therapeutic manipulation in the coming decade.     

Foxn1 is essential for vascularization of the murine thymus anlage

We addressed whether vascularization of the thymus anlage depends on Foxn1 expression. In the thymus anlagen of wild-type mice, CD31⁺ endothelial cells are initially observed between epithelial cells on embryonic day (Ed)12.5 and form luminal structure on Ed13. VEGF are produced in epithelial cells and mesenchymal cells which invaginate in the epithelial region of the anlagen on Ed13. However, in the nude thymus anlagen, neither CD31⁺ cells nor VEGF producing mesenchymal cells is detected in the epithelial region. The present results indicate that Foxn1 dependent epithelial development is essential for vascularization of the thymus anlagen.     

The role of copper in drug-resistant murine and human tumors

Multidrug resistance (MDR) is still a major threat to successful clinical application of cancer chemotherapy. Copper plays an important role in biological systems, and copper is also involved in carcinogenesis. In the present investigation, we addressed the question whether metal copper might be involved in drug resistance of murine and human tumors. By means of atomic absorption spectroscopy, we determined serum copper concentrations. We found that the blood serum of tumor-bearing mice contained higher amounts of copper than healthy mice with tumors. Secondly, mice bearing doxorubicin-resistant Ehrlich ascites carcinoma- or cyclophosphamide-resistant Lewis lung carcinoma contained more copper in their serum than mice bearing the corresponding drug-sensitive parental tumors. Furthermore, the analysis of patients with breast cancer, colon carcinoma or lung cancer showed that the serum copper contents were higher in patients not responding to chemotherapy when compared to patients whose tumors responded to treatment. The copper levels in serum of healthy volunteers were lower than in cancer patients irrespective of their response to chemotherapy. Our results imply that the level of serum copper may be considered as a biomarker for treatment response.     

Biophysical and lipofection studies of DOTAP analogs

In order to investigate the relationship between lipid structure and liposome-mediated gene transfer, we have studied biophysical parameters and transfection properties of monocationic DOTAP analogs, systematically modified in their non-polar hydrocarbon chains. Stability, size and (by means of anisotropy profiles) membrane fluidity of liposomes and lipoplexes were determined, and lipofection efficiency was tested in a luciferase reporter gene assay. DOTAP analogs were used as single components or combined with a helper lipid, either DOPE or cholesterol. Stability of liposomes was a precondition for formation of temporarily stable lipoplexes. Addition of DOPE or cholesterol improved liposome and lipoplex stability. Transfection efficiencies of lipoplexes based on pure DOTAP analogs could be correlated with stability data and membrane fluidity at transfection temperature. Inclusion of DOPE led to rather uniform transfection and anisotropy profiles, corresponding to lipoplex stability. Cholesterol-containing lipoplexes were generally stable, showing high transfection efficiency at low relative fluidity. Our results demonstrate that the efficiency of gene transfer mediated by monocationic lipids is greatly influenced by lipoplex biophysics due to lipid composition. The measurement of fluorescence anisotropy is an appropriate method to characterize membrane fluidity within a defined system of liposomes or lipoplexes and may be helpful to elucidate structure-activity relationships.     

The role of human T-lymphocyte-monocyte contact in inflammation and tissue destruction

Contact-mediated signaling of monocytes by human stimulated T lymphocytes (TL) is a potent proinflammatory mechanism that triggers massive upregulation of the proinflammatory cytokines IL-1 and tumor necrosis factor-alpha. These two cytokines play an important part in chronic destructive diseases, including rheumatoid arthritis. To date this cell-cell contact appears to be a major endogenous mechanism to display such an activity in monocyte-macrophages. Since TL and monocyte-macrophages play a pivotal part in the pathogenesis of chronic inflammatory diseases, we investigated the possible ligands and counter-ligands involved in this cell-cell interaction. We also characterized an inhibitory molecule interfering in this process, apolipoprotein A-I. This review aims to summarize the state of the art and importance of contact-mediated monocyte activation by stimulated TL in cytokine production in rheumatoid arthritis and mechanisms that might control it.     

The role of aldosterone blockade in murine lupus nephritis

Background

The purpose of this study was to examine the effect of aldosterone receptor blockade on the immunopathogenesis and progression of nephritis in the (NZB × NZW) F₁ murine lupus model.

Methods

Female NZB/W F₁ mice (11 weeks old) were treated daily with 25 or 50 mg/kg oral spironolactone or vehicle. Proteinuria, renal function, and serum autoantibody levels were monitored. Renal histopathology, immune complex deposition, and immunohistochemistry were analyzed at various time points. Targeted microarray analysis was performed on renal tissue, with subsequent real-time PCR analysis of several differentially expressed genes.

Results

Treatment with spironolactone was well tolerated by the mice throughout the course of their disease progression, with no significant differences in azotemia or serum potassium levels between vehicle-treated and spironolactone-treated animals. By 36 weeks of age, fewer spironolactone-treated mice developed nephrotic range proteinuria as compared with the control mice (control 70.8%, 25 mg/kg spironolactone 51.3%, and 50 mg/kg spironolactone 48.6%). Compared with control mice, mice treated with 25 mg/kg spironolactone had significantly lower serum anti-single-stranded DNA levels (2,042 μg/ml versus 1,036 μg/ml; P = 0.03) and anti-double-stranded DNA levels (3,433 μg/ml versus 614 μg/ml; P = 0.05). Spironolactone-treated mice exhibited decreased histopathologic evidence of inflammation and tissue damage, as compared with control mice. Additionally, spironolactone treatment resulted in decreased expression in the kidney of several inflammatory and proapoptotic genes, including those encoding interferon-γ, B lymphocyte stimulator (BlyS), tumor necrosis factor related apoptosis inducing ligand (TRAIL), tumor necrosis factor related weak inducer of apoptosis (TWEAK), and Fas ligand.

Conclusion

Aldosterone receptor blockade is safe and well tolerated in progressive murine lupus nephritis, and it results in decreased levels of clinical proteinuria, lower serum levels of autoantibodies, and decreased kidney damage. It appears to modulate inflammatory changes during the progression of glomerulonephritis and may also have a previously undescribed role in attenuating apoptosis     

Studies on organ specificity in experimental murine cryptococcosis

The chief histopathological features found in patients with cryptococcosis are both a cystic (gelatinous) lesion and a granulomatous reaction. These two tissue reactions are definitely different from each other, because a cyst is not accompanied with a significant cellular response, while a granuloma is formed as a result of various cell reactions. Therefore, it is very interesting that these two types of lesion can be observed in the same patient or in the same animal infected with Cryptococcus neoformans. From our previous paper (II) the authors reach such a thought that two steps may be required for the granuloma formation against C. neoformans infection: first, of phagocytosis by sessile macrophages of C. neoformans and second is related to T-cell function. This experiment was done to verify that the granulomatous response against C. neoformans infection might occur easily in the organs rich in sessile macrophages as compared with those poor in them and a polysaccharide capsule surrounding cryptococci may have effects to inhibit a migration of polymorphonuclear leucocytes or monocytes toward C. neoformans. C. neoformans strain RIB 12 (serological type A, mating type α) was used in this experiment. After a culture of a brain heart infusion glucose agar slant at 37 C for 3 days, yeast cells of the strain were harvested, and suspended in 1/15 M(p_H7.4) sterile phosphate buffered saline solution. Infective inoculum was prepared by adjusting the number of the yeast cells to 10⁵, 10⁶ or 5×10⁶/0.2 ml in a hemacytometer. Fourty-two male mice strain ddY were divided into 3 groups consisting of 14 each and one group was allotted to one of the cell suspensions. Each mouse was inoculated with 0.2 ml of the cell suspension into a tail vein and one mouse from each group was sacrificed at adequate intervals. At necropsies the brain, thymus, lungs, heart, liver, kidneys, spleen, pancreas, mesenteric lymph nodes, a part of the small intestine, testes and fat tissue were removed. From these organs histopathological sections, stained with HE or by PAS, were prepared. To investigate effects of a polysaccharide capsule to a migration of polymorphonuclear leucocytes or monocytes, double infections with C. neoformans and Aspergillus fumigatus, and an observation by the ‘Agar-Implantation method’ were done. As results, granulomata were formed easily in the organs rich in macrophages or lymphocytes such as the liver, spleen, lymph nodes, thymus, lungs, small intestine and fat tissue. On the contrary, in organs poor in the macrophages such as the brain, heart, pancreas, kidneys, adrenal glands and testes, the chief histopathological feature was a cyst formation containing numerous yeast cells. In the double infection, two types of lesions such as cysts and abscesses were observed in the sections of the brain. The former occurred against C. neoformans infection and the latter, against A. fumigatus infection. Even though a cyst was very close to an abscess, polymorphonuclear leucocytes or monocytes were never induced to C. neoformans. In the observation using the ‘Agar-Implantation method’, a severe cellular infiltration occurred to a perfect (teleomorphic) state of C. neoformans and very weak response, to yeast cells with a polysaccharide capsule. The difference may be due to the existence of the capsule, because a perfect state of C. neoformans is not surrounded by it.     

The role of anidulafungin therapy in solid organ transplant recipients

Anidulafungin is a new echinocandin recently approved for the treatment of esophageal candidiasis, candidemia and other forms of invasive candidiasis, such as peritonitis and intra-abdominal abscesses in non-neutropenic patients. It is fungicidal against Candida spp. and fungistatic against Aspergillus spp. It is active against Pneumocystis jirovecii. In contrast, anidulafungin does not have activity against Cryptococcus neoformans, Zygomycetes or molds, other than Aspergillus spp. The drug is well tolerated, even in patients with renal or hepatic impairment. In contrast to other echinocandins, it does not significantly interfere with the cytochrome P450 pathway and has a low drug-drug interaction profile, including calcineurinic agents and other drugs used in transplant recipients. So far, anidulafungin appears to have an excellent safety profile with few adverse events and it promises a special consideration in the management of fungal infections happening in transplant recipients.     

The role of initial inoculum on epidemic dynamics

Transient dynamics are important in many epidemics in agricultural and ecological systems that are prone to regular disturbance, cyclical and random perturbations. Here, using a simple host-pathogen model for a sessile host and a pathogen that can move by diffusion and advection, we use a range of mathematical techniques to examine the effect of initial spatial distribution of inoculum of the pathogen on the transient dynamics of the epidemic. We consider an isolated patch and a group of patches with different boundary conditions. We first determine bounds on the host population for the full model, then non-dimensionalizing the model allows us to obtain approximate solutions for the system. We identify two biologically intuitive groups of parameters to analyse transient behaviour using perturbation techniques. The first parameter group is a measure of the relative strength of initial primary to secondary infection. The second group is derived from the ratio of host removal rate (via infection) to pathogen removal rate (by decay and natural mortality) and measures the infectivity of initial inoculum on the system. By restricting the model to mimic primary infection only (in which all infections arise from initial inoculum), we obtain exact solutions and demonstrate how these depend on initial conditions, boundary conditions and model parameters. Finally, we suggest that the analyses on the balance of primary and secondary infection provide the epidemiologist with some simple rules to predict the transient behaviours.     

The role of contact chemoreception in egg-laying behaviour of locusts

Following selection of an appropriate egg-laying site desert locusts lay their eggs at depths in soil by digging their abdomen into the substrate using rhythmic movements of their abdomen and hard, sclerotised ovipositor valves. We have analysed the role of contact chemoreception on egg-laying behaviour and on the rhythmic digging movements of the valves. All chemicals tested acted aversively and reduced both the duration spent egg-laying and the number of eggs laid, with the concentration at which they became aversive being dependent on whether the chemical was normally present in the diet. Chemicals such as sucrose and a lysine glutamate salt prevented egg-laying only at much higher concentrations than known anti-feedants such as nicotine hydrogen tartrate and hydroquinine. Similarly for animals in which fictive digging movements were induced all chemicals stopped the digging rhythm, with sucrose and sodium chloride inhibiting the rhythm at relatively high concentrations compared to NHT and hydroquinone. We conclude that for both egg-laying behaviour and rhythmic digging that the aversiveness of a chemical rather than its identity per se plays a major role in regulating behaviour.     

The role of initial cells in maize anther morphogenesis.

The near absence of cell movement in plants makes clonal analysis a particularly informative method for reconstructing the early events of organ formation. We traced the patterns of cell division during maize anther development by inducing sector boundaries that preceded the earliest events of anther initiation. In doing this, we were able to estimate the smallest number of cells that are fated to form an anther, characteristic cell division patterns that occur during anther morphogenesis, and the relationship between the pre-existing symmetry of the initial cells and the final symmetry of the mature anther. Four general conclusions are made: (1) anthers are initiated from small groups of 12 or fewer cells in each of two floral meristematic layers; (2) the early growth of the anther is more like a shoot than a glume or leaf; (3) cell ancestry does not dictate basic structure and (4) the orientation of initial cells predicts the orientation of the four pollen-containing microsporangia, which define the axes of symmetry on the mature anther. The final point is discussed with other data, and an explanation involving a 'structural template' is invoked. The idea is that the orientation of initial cells within the floral meristem establishes an architectural pattern into which anther cells are recruited without regard to their cellular lineages. The structural template hypothesis may prove to be generally applicable to problems of pattern formation in plants.     

The role of fibroblast growth factor-2 in the vascularization of the chick embryo chorioallantoic membrane

The CAM is an extraembryonic membrane which serves as a gas exchange surface and its respiratory function is provided by an extensive capillary network. The development of the vascular system of the CAM is a complex, highly regulated process that depends on genetic and epigenetic factors expressed by endothelial and non-endothelial cells. In spite of the evidence that several growth factors are angiogenic in the CAM assay, poorly investigated is their role in the development of the CAM's vascular system. This article reviews our studies concerning the role of exogenous and endogenous fibroblast growth factor-2 (FGF-2) in the CAM vascularization. The findings in all these studies support the importance of FGF-2 as an autocrine paracrine stimulator of angiogenesis and its key role in the development of the vascular system in the avian embryo.