Transfer of Sjögren's syndrome-like autoimmune lesions into SCID mice and prevention of lesions by anti-CD4 and anti-T cell receptor antibody treatment

Chitosan-based nanoscale delivery systems in hepatocellular carcinoma: Versatile bio-platform with theranostic application

The field of nanomedicine has provided a fresh approach to cancer treatment by addressing the limitations of current therapies and offering new perspectives on enhancing patients' prognoses and chances of survival. Chitosan (CS) is isolated from chitin that has been extensively utilized for surface modification and coating of nanocarriers to improve their biocompatibility, cytotoxicity against tumor cells, and stability. HCC is a prevalent kind of liver tumor that cannot be adequately treated with surgical resection in its advanced stages. Furthermore, the development of resistance to chemotherapy and radiotherapy has caused treatment failure. The targeted delivery of drugs and genes can be mediated by nanostructures in treatment of HCC. The current review focuses on the function of CS-based nanostructures in HCC therapy and discusses the newest advances of nanoparticle-mediated treatment of HCC. Nanostructures based on CS have the capacity to escalate the pharmacokinetic profile of both natural and synthetic drugs, thus improving the effectiveness of HCC therapy. Some experiments have displayed that CS nanoparticles can be deployed to co-deliver drugs to disrupt tumorigenesis in a synergistic way. Moreover, the cationic nature of CS makes it a favorable nanocarrier for delivery of genes and plasmids. The use of CS-based nanostructures can be harnessed for phototherapy. Additionally, the incur poration of ligands including arginylglycylaspartic acid (RGD) into CS can elevate the targeted delivery of drugs to HCC cells. Interestingly, smart CS-based nanostructures, including ROS- and pH-sensitive nanoparticles, have been designed to provide cargo release at the tumor site and enhance the potential for HCC suppression.

MicroRNA-98 reduces amyloid β-protein production and improves oxidative stress and mitochondrial dysfunction through the Notch signaling pathway via HEY2 in Alzheimer's disease mice

Alzheimer's disease (AD) is a chronic neurodegenerative disease that often occurs at a slow pace yet deteriorates with time. MicroRNAs (miRs) have been demonstrated to offer novel therapeutic hope for disease treatment. The aim of the present study was to investigate the effect of miR‑98 on amyloid β (Aβ)‑protein production, oxidative stress and mitochondrial dysfunction through the Notch signaling pathway by targeting hairy and enhancer of split (Hes)‑related with YRPW motif protein 2 (HEY2) in mice with AD. A total of 70 Kunming mice were obtained and subjected to behavioral assessment. The levels of oxidative stress‑related proteins glutathione peroxidase, reduced glutathione, superoxide dismutase, malondialdehyde, acetylcholinesterase and Na+‑K+‑ATP were measured. Morphological changes in brain tissue, HEY2‑positivity levels, neuronal apoptotic index (AI) and neuron mitochondrial DNA (mtDNA) levels were also determined. Subsequently, the levels of miR‑98 and the mRNA and protein levels of HEY2, Jagged1, Notch1, Hes1, Hes5, β‑amyloid precursor protein, B‑cell lymphoma 2 (Bcl‑2) and Bcl‑2‑associated X protein in tissues and hippocampal neurons were determined by reverse transcription‑quantitative polymerase chain reaction and western blot analyses, respectively. Finally, hippocampal neuron viability and apoptosis were determined using an MTT assay and flow cytometry, respectively. The levels of miR‑98‑targeted HEY2 and miR‑98 were low and the levels of HEY2 were high in the AD mice. The AD mice exhibited poorer learning and memory abilities, oxidative stress function, and morphological changes of pyramidal cells in the hippocampal CA1 region. Furthermore, the AD mice exhibited increased protein levels of HEY2 and AI in the CA1 region of brain tissues with reduced mtDNA levels and dysfunctional neuronal mitochondria. miR‑98 suppressed hippocampal neuron apoptosis and promoted hippocampal neuron viability by inactivating the Notch signaling pathway via the inhibition of HEY2. In conclusion, the results demonstrated that miR‑98 reduced the production of Aβ and improved oxidative stress and mitochondrial dysfunction through activation of the Notch signaling pathway by binding to HEY2 in AD mice.

N,N,N-Trimethyl chitosan nanoparticles for the delivery of monoclonal antibodies against hepatocellular carcinoma cells

N,N,N-Trimethyl chitosan chloride is capable of forming nanocomplexes with protein through ionotropic gelation. A monoclonal antibody, raised against human liver heparan sulfate proteoglycan and specifically inhibiting hepatocellular carcinoma in vitro, was prepared in nanocomplexes of this modified chitosan. The smallest nanocomplexes (59 ± 17 nm, zeta-potential 16.5 ± 0.5 mV) were obtained at polysaccharide:antibody ratios of 5:0.3. Spherical particles with a smooth surface and compact structure having a mean diameter of ~11.2 ± 0.09 nm were investigated by Atomic Force Microscopy. Cellular uptake of fluorescently labeled nanocomplexes was studied in mouse monocyte models of cancer and normal cells. External and internal fluorescence was analyzed by flow cytometry. The results demonstrate that the nanocomplexes could enter cells and were retained for a longer period of time in cancer cells where they exhibited greater toxicity. These nanocomplexes appear safe and could potentially enhance the half-life of added antibodies.

Autoimmune dacryoadenitis and keratoconjunctivitis induced in rabbits by subcutaneous injection of autologous lymphocytes activated ex vivo against lacrimal antigens

Autologous peripheral blood lymphocytes (PBL), activated in a mixed cell reaction when co-cultured with purified rabbit lacrimal epithelial cells, are known to induce a Sjögren's-like autoimmune dacryoadenitis and keratoconjunctivitis when injected directly back into the donor animal's inferior lacrimal gland (LG). This study shows that autoreactive lymphocytes injected subcutaneously in a site away from the LG is capable of inducing an autoimmune disease in a rabbit. Induced disease (ID) develops more slowly, taking 4weeks as compared to 2weeks in the direct injection model. Initially, both clinical symptoms and histopathology are less pronounced than in the direct injection ID model, but later the immunocytochemistry shows the same CD4+/CD8+ ratio of 4:1 for both injection methods. The finding that lymphocytes activated against lacrimal antigens can travel or home from the injection site back to the inferior and superior LG, as well as the conjunctiva, suggests that these anatomical sites may have common epitopes that induce pathogenic CD4+ T cells that produce a Sjögren's-like syndrome.

Autoimmune Th2-mediated dacryoadenitis in MRL/MpJ mice becomes Th1-mediated in IL-4 deficient MRL/MpJ mice

PURPOSE

MRL/MpJ mice of substrains MRL/MpJ-fas(+)/fas(+) (MRL/+) and MRL/MpJ-fas(lpr)/fas(lpr) (MRL/lpr) spontaneously develop autoimmune dacryoadenitis and sialadenitis and are a model for the human disorder Sjögren syndrome. The dacryoadenitis in both substrains appears to be Th2 in nature, with little IFN-gamma and substantial IL-4 at the site of lacrimal gland inflammation.

METHODS

MRL/MpJ mice with a defective IL-4 gene-both MRL/+-IL-4(tm)/IL-4(tm) (MRL/+/IL-4(tm)) and MRL/lpr-IL-4(tm)/IL-4(tm) (MRL/lpr-IL-4(tm))-that resulted in a loss of IL-4 production were bred and evaluated for dacryoadenitis.

RESULTS

MRL/+/IL-4(tm) and MRL/lpr/IL-4(tm) mice developed dacryoadenitis of similar onset, appearance, and severity as found in MRL/MpJ mice with an intact IL-4 gene. Immunohistochemistry examination revealed a substantially greater number of inflammatory cells staining for IFN-gamma than for IL-13 in the dacryoadenitis of IL-4-deficient MRL/MpJ mice (MRL/+/IL-4(tm), 66% vs. 0.8%, P = 0.001; MRL/lpr/IL-4(tm), 67% vs. 1.2%, P = 0.002). Real-time PCR demonstrated greater amounts of IFN-gamma than IL-13 mRNA relative transcripts in lacrimal glands of MRL/lpr/IL-4(tm) mice (mean difference, 28.6; P = 0.035). Greater CD86 (B7-2) than CD80 (B7-1) expression was present in MRL/+/IL-4(tm) mice (11% vs. 3%, P = 0.003) and MRL/lpr/IL-4(tm) mice (10% vs. 3%, P = 0.002).

CONCLUSIONS

These results suggest that a Th2 autoimmune process can be converted to a Th1 process in the absence of IL-4.

Immunization with short peptides from the 60-kDa Ro antigen recapitulates the serological and pathological findings as well as the salivary gland dysfunction of Sjogren's syndrome

Sjögren's syndrome is a poorly understood autoimmune inflammatory illness that affects the salivary and lacrimal glands as well as other organ systems. We undertook the present study to determine whether mice immunized with short peptides from the 60-kDa Ro (or SSA) Ag, which is a common target of the autoimmunity of Sjögren's syndrome, develop an illness similar to Sjögren's syndrome. BALB/c mice were immunized with one of two short peptides from 60-kDa Ro that are know to induce epitope spreading. The animals were analyzed for the presence of anti-Ro and anti-La (or SSB) in the sera by immunoblot and ELISA. Salivary glands were collected and examined by histology after H&E staining. Salivary lymphocytes were purified and studied for cell surface makers by fluorescence-activated cell sorting. Timed stimulated salivary flow was measured. As reported previously, BALB/c mice immunized with 60-kDa Ro peptides developed an immune response directed against the entire Ro/La ribonucleoprotein particle that was similar to that found in humans with lupus or Sjögren's syndrome. Functional studies showed a statistical decrease in salivary flow in immunized mice compared with controls. Furthermore, there were lymphocytic infiltrates in the salivary glands of immunized animals that were not present in controls. The infiltrates consisted of both CD4- and CD8+ T lymphocytes as well as B lymphocytes. BALB/c mice immunized with 60-kDa Ro peptides develop anti-Ro, salivary gland lymphocyte infiltrates, and salivary dysfunction that is highly reminiscent of human Sjögren's syndrome.

Effective treatment of a mouse model of Sjögren's syndrome with eyedrop administration of anti-CD4 monoclonal antibody

OBJECTIVE

To determine whether eyedrop administration of an anti-CD4 monoclonal antibody (mAb) is effective in the treatment of Sjögren's syndrome (SS) using a mouse model of the disease.

METHODS

The anti-CD4 mAb was administered daily into the eyes of mice with SS from ages 4 to 8 weeks or ages 10 to 12 weeks. During treatment, tear volume was monitored and after final treatment, histologic features of the lacrimal and salivary glands, the phenotypes and function of T cells, and serum titers of anti-alpha-fodrin antibody were examined.

RESULTS

Eyedrop administration of anti-CD4 mAb before the onset of SS prevented the autoimmune pathology seen in the lacrimal glands but not that in the salivary glands. Furthermore, eyedrop administration of anti-CD4 mAb after the development of SS inhibited mononuclear cell infiltration and the destruction of parenchyma only in the lacrimal glands. Eyedrop administration of anti-CD4 mAb suppressed the local activation of CD4+ T cells rather than deleting CD4+ T cells, which reduced the expansion of pathologic CD4+ T cells against alpha-fodrin.

CONCLUSION

These results demonstrate the remarkable efficacy of anti-CD4 mAb eyedrops in the treatment of SS eye symptoms, which illustrates a new antibody-based therapeutic strategy for patients with eye problems caused by SS as well as other diseases.

Genomic absence of the gene encoding T cell receptor Vbeta7.2 is linked to the presence of autoantibodies in Sjögren's syndrome

OBJECTIVE

It is not yet known whether the absence of certain T cell receptor V(beta) (TCRBV) genes (e.g., due to genomic deletion) has functional significance. We examined this question in relation to a known 21.6-kb insertion/deletion-related polymorphism (IDRP) in the human BV locus.

METHODS

New polymerase chain reaction (PCR) genotyping methods were used. Monoclonal antibodies to TCRBV gene products were used to confirm the absence of the relevant proteins. Patients with Sjögren's syndrome (SS) or systemic lupus erythematosus (SLE) were compared with normal controls with regard to TCR genotypes and serologic profiles.

RESULTS

There are 3 known haplotypes (I, D1, D2) and 6 possible genotypes related to the 21.6-kb IDRP. Novel PCR-based methods were used to define these genotypes. In subjects with deleted/deleted (D/D) genotypes, T cells could not express V(beta)7.2 TCRs, as assayed with a new antibody specific for V(beta)7.2. This was the sole significant difference between subjects without the insertion and those with either 1 or 2 copies. Surprisingly, we found that the D/D genotype was associated with primary SS, but only when pathogenic autoantibodies were present.

CONCLUSION

These results suggest that T cells expressing TCRs with V(beta)7.2 are protective against a pathogenic immune response in SS. Thus, genomic polymorphism of TCR genes (along with the correct HLA alleles) determines whether T cells can direct a pathogenic autoimmune response.

Lacrimal histopathology and ocular surface disease in a rabbit model of autoimmune dacryoadenitis

PURPOSE

To study the effects of induced autoimmune dacryoadenitis on lacrimal gland function, histopathology, and ocular surface disease in a rabbit model.

METHODS

One lacrimal gland was surgically excised from each experimental rabbit, and epithelial cells were purified, cultured, irradiated, and then cocultured with autologous peripheral blood lymphocytes (PBLs) for 5 days. Autoimmune dacryoadenitis was induced by injecting the autologous mixed cell reactions (AMCRs) into the rabbit's remaining lacrimal gland. Normal rabbits and rabbits with both lacrimal glands injected with nonstimulated PBLs were examined as controls. Eyes were evaluated biweekly for 8 weeks by slit-lamp biomicroscopy, Schirmer testing, tear break-up time measurement, and rose bengal examination. Sections of lacrimal glands removed at 8 weeks post-operation were immunostained using antibodies against rabbit class II major histocompatibility complex molecule (MHC-II), CD4, CD8, CD18, and rabbit thymic lymphocyte antigen (RTLA). Relative numbers of positively stained cells were quantified with a ChromaVision image analysis system.

RESULTS

During an 8-week period, a continuous decrease in tear production and stability, accompanied by a continuous increase in rose bengal staining, occurred in eyes in which AMCR-PBL had been injected into the ipsilateral lacrimal glands. Similar, though generally less severe, changes occurred in eyes contralateral to the AMCR-PBL-injected eyes. No obvious changes by 8 weeks in these parameters were found in eyes in which the lacrimal glands had been injected with nonstimulated PBLs or in the lacrimal gland-excised eyes contralateral to normal eyes. Interstitial cells in normal lacrimal glands expressed CD18 and RTLA antigens, but few expressed CD4, CD8, or MHC-II. Focal mononuclear cell infiltrates were only found in lacrimal glands from animals with induced autoimmune dacryoadenitis. These cells were predominantly positive for CD4 (7.3-fold increase), RTLA (7.8-fold increase), or CD18 (42-fold increase). MHC-II expression in interstitial and ductal epithelial cells was also significantly greater in these animals than in control animals. The mononuclear cell infiltrates were frequently found enveloping venules, some of which appeared to be high endothelial cell venules. The ductal epithelium also contained CD4 and CD8 immunopositivity, within the epithelium, at the lumenal surface, or surrounding the ducts. Occasionally CD4 and CD8 immunopositive cells could be identified within the acinar lumens.

CONCLUSIONS

Injection of activated PBLs (i.e., AMCR-PBLs) in the lacrimal gland induces autoimmune dacryoadenitis with immunopathologic features similar to those of Sjögren's syndrome. The lacrimal immunopathology is accompanied by typical clinical manifestations of dry eye syndrome. The persistent significant dry eye does not appear to result just from failure of the diseased gland but from a more general dysfunction of the surface secretory tissues.

Prevention and induction of autoimmune exocrinopathy is dependent on pathogenic autoantigen cleavage in murine Sjögren's syndrome

The in vivo role of autoantigen cleavage during apoptosis in autoimmune diseases remains unclear. Previously, we found a cleavage product of 120-kDa alpha-fodrin as an important autoantigen in the pathogenesis of primary Sjögren's syndrome (SS). In the murine primary SS model, tissue-infiltrating CD4(+) T cells purified from the salivary glands bear a large proportion of Fas ligand, and the salivary gland duct cells constitutively possess Fas. Infiltrating CD4(+) T cells, but not CD8(+) T cells, identified significant (51)Cr release against mouse salivary gland cells. In vitro studies demonstrated that apoptotic mouse salivary gland cells result in a specific alpha-fodrin cleavage into 120 kDa and that preincubation with caspase inhibitor peptides blocked alpha-fodrin cleavage. In vivo treatment with caspase inhibitors N-benzyloxycarbonyl-Val-Ala-Asp fluoromethyl ketone and N-acetyl-Asp-Glu-Val-Asp-al-CHO into the murine model results in dramatic inhibitory effects on the development of autoimmune lesions and in restoration of sicca syndrome. Furthermore, we found that immunization with recombinant alpha-fodrin protein identical with an autoantigen into normal recipients induced autoimmune lesions similar to SS. These data indicate that prevention and induction of autoimmune exocrinopathy is dependent on autoantigen cleavage via caspase cascade and that caspase inhibitors might provide a new therapeutic option directed at reducing tissue damage in the murine model for SS.

Autologous lacrimal-lymphoid mixed-cell reactions induce dacryoadenitis in rabbits

Autoimmune dacryoadenitis, such as occurs in Sjögren's syndrome, is a frequent cause of lacrimal insufficiency, which in turn can cause dry eye. Rabbits are used frequently to test ocular therapies. Our goal is to develop a rabbit model of autoimmune dacryoadenitis to identify and test candidate therapies. Our approach arises from the observations that lacrimal gland epithelial cells stimulate proliferation in cultured autologous lymphocyte preparations and that an anti-MHC II antibody blocks this proliferation. The purpose of this study was to determine if injecting this proliferating autologous mixed cell reaction could induce dacryoadenitis in rabbits. After establishing that irradiated lacrimal gland epithelial cells stimulate proliferation in autologous peripheral blood lymphocytes, irradiated cells from a single lacrimal gland were co-cultured with autologous lymphocytes and after 5 days the mixed cell reaction, or components of the reaction, were injected into the contralateral lacrimal gland of the donor rabbit. After 2 weeks, the injected glands were removed and lymphocytic infiltration quantitated using digital image analysis of immunostained histological sections. Injecting an autologous mixed cell reaction of co-cultured irradiated lacrimal gland epithelial cells and lymphocytes reliably induced abundant periductal foci of >200 lymphocytes expressing CD18 and/or a rabbit thymic lymphocyte antigen (RTLA). Injection of medium or autologous lymphocytes alone elicited little response; injections of lymphocytes cultured with lysates of lacrimal gland epithelial cells elicited variable, modest responses. These lysates did not stimulate proliferation in the mixed cell reaction and proliferation was not observed if a porous membrane separated co-cultured lacrimal gland cells and lymphocytes. The results demonstrate that injecting an autologous mixed cell reaction of lacrimal gland epithelial cells and lymphocytes reliably creates a model of autoimmune dacryoadenitis. The relative ineffectiveness of components of the reaction to do the same supports the hypothesis that lacrimal gland epithelial cells trigger or exacerbate lacrimal autoimmune disease by presentation of autoantigens via MHC II. This experimental system can aid efforts to further understand mechanisms of diseases, and to identify and test candidate therapies.

Severe destructive autoimmune lesions with aging in murine Sjögren's syndrome through Fas-mediated apoptosis

When we evaluated the age-associated changes in autoimmune exocrinopathy in a NFS/sld murine model for primary Sjögren's syndrome (SS), severe destructive autoimmune lesions developed in the salivary and lacrimal glands in the aged mice, compared with those observed in the younger model. We detected a decreased secretion of saliva and tear flow in the aged group. A significant increase of TUNEL(+)-apoptotic epithelial duct cells in the salivary glands was detected in the aged SS animal model. A higher proportion of mouse salivary gland cells bearing Fas was found in the aged group, whereas no significant changes were seen on tissue-infiltrating CD4(+) T cells bearing FasL in the salivary glands from young and aged mice. We detected an increased cleavage product of organ-specific autoantigen, 120-kd alpha-fodrin, in the aged salivary gland tissues on immunoblotting, and an increase in serum autoantibody production against 120-kd alpha-fodrin by enzyme-linked immunosorbent assay. An increase in the proliferative response of splenic T cells against organ-specific autoantigen was observed, whereas nonspecific concanavalin A responsiveness was decreased in the aged mice. In addition, a decrease in Fas expression was found on splenic CD4(+) T cells in the aged mice, and anti-Fas mAb-stimulated apoptosis was down-regulated on CD4(+) T cells. These results indicate that age-associated dysregulation of CD4(+) T cells may play a crucial role on acceleration of organ-specific autoimmune lesions in a murine model for primary SS through Fas-mediated apoptosis.

Autoimmune insulitis and diabetes in the absence of antigen-specific contact between T cells and islet beta-cells

Autoimmune diabetes develops following recognition of organ-specific antigens by T cells. The disease begins with peri-islet infiltration by mononuclear cells, proceeds with insulitis and becomes manifest with destruction of insulin-producing islet beta-cells. T cells are necessary to induce insulitis and diabetes, but it is not clear by what mechanisms they can do so, i. e. whether the T cells need to make antigen-specific contact with the beta-cell or whether other interactions are sufficient to induce beta-cell death. In the present study we have constructed chimeric mice in which the bone marrow-derived antigen-presenting cells, but not the islet beta-cells, are capable of presenting antigen to monospecific T cells. We show that both insulitis as well as beta-cell destruction can proceed in the absence of islet beta-cell surface antigen recognition by T cells. Our results support the notion that diabetes can be caused by distinct effector mechanisms.

Estrogen deficiency accelerates autoimmune exocrinopathy in murine Sjögren's syndrome through fas-mediated apoptosis

Estrogenic action has been suggested to be responsible for the strong female preponderance of autoimmune diseases, but the role of estrogens in the female has not been well characterized. We evaluated the effects of estrogen deficiency in a murine model for autoimmune exocrinopathy of Sjögren's syndrome (SS). Severe destructive autoimmune lesions developed in the salivary and lacrimal glands in estrogen-deficient mice, and these lesions were recovered by estrogen administration. We detected an intense estrogen receptor in splenic CD8(+) T cells compared with that in CD4(+) T cells, and concanavalin-A-stimulated blastogenesis of splenic CD8(+) T cells with estrogens was much higher than that of CD4(+) T cells. We found a significant increase in serum autoantibody production against the organ-specific autoantigen alpha-fodrin. Moreover, an increased proportion of TUNEL+ apoptotic epithelial duct cells was observed in estrogen-deficient mice. It was demonstrated that Fas-mediated apoptosis in cultured salivary gland cells was clearly inhibited by estrogens in vitro. These results indicate that dysfunction of regulatory T cells by estrogen deficiency may play a crucial role on acceleration of organ-specific autoimmune lesions, and estrogenic action further influences target epithelial cells through Fas-mediated apoptosis in a murine model for SS.

Sjögren's syndrome in mice carrying the Ipr(cg) gene and the therapeutic efficacy of an immunosuppressive agent FK506

The influence of the Ipr(cg) gene on the development of Sjögren's syndrome was followed up to 5 months of age in male and female mice of MRL, CBA and C3H strains. In MRL-Ipr(cg) mice, focal mononuclear cell infiltration started at 2 months and became conspicuous after 3 months of age in the lacrimal and submandibular glands but was minimal in the parotid and sublingual glands, even at 5 months of age, without any apparent sex effects found. In CBA and C3H mice carrying the Ipr(cg) gene, this manifestation of Sjögren's syndrome was much less prominent, indicating that the participation of some genes of the MRL strain may be indispensable for the development of Sjögren's syndrome in mice carrying this gene. In MRL-Ipr(cg) mice, an immunosuppressive agent, FK506, improved the serological abnormalities (decreased levels of anti-double-stranded DNA antibody of IgG2a and IgG3 subclasses) and proteinuria. It also reduced the manifestations of Sjögren's syndrome when it was intraperitoneally administered three times weekly at a dose of 2 mg/kg from 6 weeks (before disease onset) until 5 months of age (the termination of the experiment). Although VP8.2+ T cells have been demonstrated to be responsible for causing several autoimmune diseases, the selective deletion of Vp8.2+ T cells with the superantigen encoded by mouse mammary tumor virus did not affect the disease severity at all, suggesting that this T cell repertoire may not play a crucial role in induction of Sjögren's syndrome.

Anti-120-kDa alpha-fodrin immune response with Th1-cytokine profile in the NOD mouse model of Sjögren's syndrome

Our recent study suggested that the 120-kDa alpha-fodrin molecule may be an important autoantigen in the pathogenesis of Sjögren's syndrome, and anti-120-kDa alpha-fodrin antibodies have been detected in patients with Sjögren's syndrome. Here we have analyzed anti-120-kDa alpha-fodrin immune responses during development of spontaneous autoimmune sialadenitis in NOD mice as a model of Sjögren's syndrome. We found specific autoantibody production against 120-kDa alpha-fodrin, and its production correlated closely with autoimmune sialadenitis. A specific T cell response of splenocytes against the 120-kDa alpha-fodrin autoantigen was observed in NOD mice from the early onset of autoimmune sialadenitis. In addition, production in vitro by splenic T cells of cytokines such as interleukin-2 (IL-2) and interferon-gamma (IFN-gamma), but not IL-4, was detected by enzyme-linked immunosorbent assays. We found up-regulation of local cytokine genes, including those of Th1 type (IL-1beta, TNF-alpha, IL-2, IFN-gamma, IL-6), as well as IL-10 and IL-12(p40), in the tissue-infiltrating cells during the course of autoimmune sialadenitis. These findings suggest that in spontaneous autoimmune sialadenitis in NOD mice, there may be a specific anti-120-kDa alpha-fodrin immune response in the development of autoimmune lesions resembling human Sjögren's syndrome, and that the autoreactive Th1 cells possess an up-regulated cytokine profile besides IL-10 and IL-12.

Characterization of the changing lymphocyte populations and cytokine expression in the exocrine tissues of autoimmune NOD mice

NOD mice develop chronic lymphocytic invasion of the pancreas, submandibular, and lacrimal glands leading to loss of insulin secretion, salivary flow, and tear production. In this study, we have used flow cytometric analyses and RT-PCR to track glandular lymphocyte populations and cytokine expression spanning the initiation of autoimmune infiltration through the development of widespread autoimmune destruction of the salivary and lacrimal glands of NOD mice. Results demonstrate a predominance of CD4+ to CD8+ lymphocytes and a similar predominance of T-cells versus B-cells in both the submandibular and lacrimal gland infiltrates. A temporal increase in memory (CD3+CD45RBlo) T-cells was also detected; however, naive (CD3+CD45RBhi) T-cell populations as well as a CD3+, CD4-/CD8- double negative population were also present. In addition, a skewing of the TCR Vbeta repertoire toward Vbeta6+ and Vbeta8+ lymphocytes was evident in both glandular infiltrates. Analyses of cytokine mRNA expression in the submandibular glands demonstrated an increase between 12 and 16 wk of age of several proinflammatory cytokines including IL-1beta, IL-6, IL-7, IL-10, IFNgamma, TNFalpha, and inducible Nitric Oxide Synthase (iNOS). IL-4 synthesis was notably absent in both tissues. Cytokine mRNA transcripts detected in lacrimal tissue were similar to those seen in the submandibular glands but appeared both earlier and more intensely. These findings depict the progressive development of autoimmune exocrinopathy and can be used as a foundation to explore the similarities and potential differences in the immunopathogenic lesions of several distinct tissues within the same host.

Role of T cells in the pathogenesis of autoimmune lacrimal gland disease in MRL/Mp-lpr/lpr mice

PURPOSE

MRL/Mp-lpr/lpr mice (MRL/lpr) spontaneously develop an autoimmune disease, including lacrimal gland lesions, which are a model for Sjögren's syndrome. Target organ lesions in MRL/lpr mice are composed largely of CD4+ T cells, and treatment with monoclonal antibodies (mAb) against CD4 improves in the systemic autoimmune disease but not the lacrimal gland inflammation. In anti-CD4 mAb-treated MRL/lpr mice, the lacrimal gland lesions are composed largely of CD8+ T cells. The effects of depletion of: (1) all T cells; (2) both CD4+ and CD8+ T cells, and (3) only CD8+ T cells on the lacrimal gland disease were investigated.

METHODS

MRL/lpr mice underwent neonatal thymectomy and were treated with weekly injections of 6 mg of anti-Thy 1 mAb from age one week until sacrifice at age five months. Control nonthymectomized mice underwent similar treatment with either saline or normal rat immunoglobulin (rIg) injections. In a second experiment, MRL/lpr mice were treated with weekly injections of either: (1) 2 mg anti-CD4 mAb and 5 mg anti-CD8; or (2) 5 mg anti-CD8 alone. Control mice underwent similar treatment with either saline or rIg injections.

RESULTS

Combined treatment with neonatal thymectomy and anti-Thy 1 mAb was effective in reducing the lacrimal gland disease in both frequency (50% > or = grade 3 vs. 100% in controls, P < 0.002) and extent (median 0% of lacrimal gland area involved by inflammation vs. 14.8% in controls; P = 0.01). Combined anti-CD4 and anti-CD8 therapy also was effective in reducing the lacrimal gland disease in terms of frequency (25% grade 3 vs. 93% in controls; P = 0.002) and extent (median 0% of lacrimal gland involved by inflammation vs. 12.9% in controls; P = 0.0005). Treatment with anti-CD8 mAb therapy alone was ineffective. The systemic autoimmune disease was also improved by T cell depletion and by combined anti-CD4 and anti-CD8 mAb therapy but not by anti-CD8 mAb therapy alone.

CONCLUSIONS

Suppression of both CD4+ and CD8+ T cells is required to suppress lacrimal gland inflammation in MRL/lpr mice.

Effects of sialadenitis after cellular transfer in autoimmune MRL/lpr mice

The MRL/Mp mice bearing a lymphoproliferative gene, lpr (MRL/Mp-lpr/lpr), provide an appropriate model for the study of autoimmune mechanisms leading to the destruction of salivary and lacrimal gland tissue in Sjögren's syndrome. By 7-8 weeks of age, progressive focal inflammatory cell infiltrates are observed in salivary glands. We examined the possibility of transferring this disorder into syngeneic, young animals. Spleen cells and infiltrating mononuclear cells (MNC) enzymatically eluted from salivary glands were used. The results showed that sialadenitis could be transferred in vivo to young MRL/lpr mice by splenic and salivary gland MNC. The most striking finding was observed in male recipients where the highest incidence of sialadenitis (5/5) was seen in the group injected intravenously with a small dose (1 x 10(6) of salivary gland MNC, CD8+ splenic cells alone were not able to transfer disease. On the other hand, CD4+ splenic cells induced a more severe sialadenitis compared to the control animals. The transfer of pooled cells from salivary glands resulted in the most severe and accelerating sialadenitis (P < 0.05) in female recipients compared with the control animals. Overall, the highest sialadenitis scores (> 0.10) were obtained only after transfer of CD4+ spleen cells and infiltrating salivary gland MNC. These findings indicate that sialadenitis in MRL/lpr mice is mediated by cellular mechanisms and suggest that the infiltrating MNC have the ability to accelerate autoimmune disease in the salivary glands.

Animal models for autoimmune disease-associated xerostomia and xerophthalmia

Numerous models of exocrine tissue pathology related to autoimmune initiation of disease have been described, primarily by either immunohistology or histopathology. These model systems include inbred mouse strains that develop systemic lupus erythematosus, rheumatoid arthritis, graft vs. host disease, and diabetes. Commonly observed features of these mice include organized lymphocytic foci, composed of CD4+ and CD8+ T-cells, in both the salivary and the lacrimal glands. However, only the diabetic mouse model (NOD) undergoes a corresponding loss in exocrine gland function related to the presence of lymphocytic infiltrates. As we define the underlying pathophysiology of Sjögren's syndrome, the future of animal models for this disease will involve genetic exploration of candidate genes for development of autoimmune exocrinopathy.

Cytokine gene expression and autoantibody production in Sjögren's syndrome of MRL/lpr mice

In an attempt to elucidate the mechanism of development of organ-specific autoimmune lesions resembling human Sjögren's syndrome of MRL/lpr mice, we have analyzed local cytokine gene expressions and organ-specific autoantibody production in vivo. We have demonstrated that a major proportion of T cells bearing CD4 and V(beta)8 molecules are essentially responsible for triggering the autoimmunity in the salivary glands of MRL/lpr mice. The local cytokine gene expressions including interferon(IFN)-gamma, IL-12(p40) mRNAs were observed during the course of murine Sjogren's syndrome in MRL/lpr autoimmune strain. In particular, a high level of local expressions of IL-12 mRNA was detected earlier in the proinflammatory stage of autoimmune lesions. A significant level of local expression of MHC class-II(I-Ak) mRNA was detected before the onset of inflammatory lesions in the salivary glands, and I-Ak-positive epithelial duct cells were frequently observed in the salivary glands of MRL/lpr mice. In addition, we found the salivary gland-specific autoantibody in sera from MRL/lpr mice with early phase of autoimmune lesions by immunoblot analysis. These results suggest that cytokine gene stimulation and autoantibody production are essentially involved in the development of organ-specific autoimmune lesions in Sjögren's syndrome of MRL/lpr mice.

Prevention of adoptive transfer of murine Sjögren's syndrome into severe combined immunodeficient (SCID) mice by antibodies against intercellular adhesion molecule-1 (ICAM-1) and lymphocyte function-associated antigen-1 (LFA-1)

We have analysed the role of ICAM-1 and LFA-1 during development of autoimmune sialadenitis in MRL/lpr mice by direct analysis of RNA obtained from the salivary gland tissues, and the therapeutic effects with antibody administration on adoptive transfer system into SCID mice. The expression of cell adhesion molecules was assessed by using reverse transcriptase polymerase chain reaction (RT-PCR) and Southern blot analysis, and immunohistochemical analysis. Up-regulated expression of ICAM-1 mRNA was observed before the onset of inflammatory lesions in the salivary glands at 1 month and 2 months old, and thereafter LFA-1 mRNA was expressed within the typical inflammatory lesions, resembling human Sjögren's syndrome in MRL/lpr mice. Immunohistochemically, ICAM-1 was localized exclusively in the endothelial cells of varying sized blood vessels before the onset of disease, and LFA-1 expressing inflammatory cells were found within these lesions. When the therapeutic effects in vivo were examined, antibodies to ICAM-1 in combination with anti-LFA-1 prevented adoptive transfer of Sjögren's syndrome in MRL/lpr mice into SCID mice, while no significant effect was found when treated with either antibody. These findings indicate that in Sjögren's syndrome-like autoimmune lesions in MRL/lpr mice the ICAM-1/LFA-1 pathway may play a crucial role in the initiation and subsequent progression of T cell-mediated autoimmunity in the salivary and lacrimal glands of MRL/lpr mice.

Biased T cell receptor V beta gene usage during specific stages of the development of autoimmune sialadenitis in the MRL/lpr mouse model of Sjögren's syndrome

OBJECTIVE

To analyze the repertoire of T cell receptor (TCR) V beta gene transcribed and expressed within the autoimmune lesions of the salivary gland in the MRL/lpr mouse model of Sjögren's syndrome.

METHODS

Monoclonal antibodies (MAb) were used to determine the prevalence of selected V gene elements on T cell infiltrates from salivary glands of MRL/lpr mice. To analyze TCR V beta gene usage, we used reverse-transcriptase polymerase chain reaction (RT-PCR) and single-strand conformational polymorphism (SSCP) analyses.

RESULTS

A predominance of V beta 8+ T cells was detected within the inflammatory lesions during development of autoimmune disease (confirmed by flow cytometry). RT-PCR analysis revealed that in autoimmune sialadenitis, the predominant expression of the V beta 8 gene segment began in the early stages of disease (2-month-old mice) and increased over time. Extensive age-related diversity of TCR V beta gene usage was also observed. SSCP analysis demonstrated a distinct and common binding pattern of the V beta 8 gene PCR product from the cell infiltrates during the course of the disease.

CONCLUSION

Our data suggest that in the MRL/lpr mouse model of Sjögren's syndrome, there is restricted usage of TCR V beta elements according to the stage of the disease, and that V beta 8 are probably used preferentially in the recognition of a single unknown self antigen in the salivary gland.