Immunosuppressive activity of a novel peptide analog of α-melanocyte stimulating hormone (α-MSH) in experimental autoimmune uveitis.

Autoimmune uveitis is an inflammatory disorder of the eye that can lead to pain and vision loss. Steroids and immunosuppressive drugs are currently the only therapeutics for uveitis and have serious ocular and systemic toxicities. Therefore, safer alternative therapeutics are desired. Alpha-melanocyte stimulating hormone (α-MSH) is a neuropeptide that suppresses effector T cell functions, induces regulatory T cells and has beneficial effects in certain autoimmune and transplant models. A novel d-amino acid peptide analog of native α-MSH (dRI-α-MSH) was produced that was protected from protease digestion and had increased selectivity for the melanocortin-1 receptor. Systemic delivery of the dRI-α-MSH analog dramatically suppressed disease progression and retained retinal architecture in the experimental autoimmune uveitis (EAU) model. Local delivery by periorbital injection was equally effective. Importantly, treatment with the novel dRI-α-MSH analog suppressed uveitis with a similar magnitude to the corticosteroid, dexamethasone. Data indicate that the novel dRI-α-MSH analogs show anti-inflammatory activities and have potential therapeutic use in uveitis and other autoimmune diseases.

Activation of Tyk2 and Stat3 is required for the apoptotic actions of interferon-beta in primary pro-B cells.

The growth-inhibitory effects of type 1 interferons (IFNs) (IFNalpha/beta) are complex, and the role of apoptosis in their antigrowth effects is variable and not well understood. We have examined primary murine interleukin-7-dependent bone marrow-derived pro-B cells, where IFNbeta, but not IFNalpha, induces programmed cell death (PCD). IFNbeta-stimulated apoptosis is the same in pro-B cells derived from wild type and Stat1(-/-) mice. However, in pro-B cells from Tyk2(-/-) mice, where there is normal activation of Stat1 and Stat2, IFNbeta-stimulated PCD is not observed. Loss of B cells in lymphocytic choriomeningitis virus-infected mice has been shown to be mediated through the expression of IFNalpha/beta (1). In wild type mice infected with lymphocytic choriomeningitis virus, there is a greater loss of B cells in the bone marrow and spleen than in Tyk2(-/-) mice infected with the virus, suggesting that the expression of this kinase plays an in vivo role in IFNalpha/beta-mediated PCD. In contrast to IFNbeta-stimulated tyrosine phosphorylation of Stat1 and Stat2, Stat3 tyrosine phosphorylation is defective in Tyk2(-/-) pro-B cells, suggesting that this Stat family member is required for apoptosis. In support of this hypothesis, inhibition of Stat3 activation in wild type B cells reverses the apoptotic effects of IFNbeta. Furthermore, expression of a constitutively active form of Stat3 in Tyk2(-/-) B cells partially restores IFNbeta-stimulated PCD. These results demonstrate an important role of Tyk2-mediated tyrosine phosphorylation of Stat3 in the ability of IFNbeta to stimulate apoptosis of primary pro-B cells.

Stem cell reconstitution of autoimmune T cell repertoires.

Maintenance of T cell memory in autoimmune disease may be complex because the unending renewable supply of self provides an inherent high antigen load that effectively precludes clearance, and because the broad array of potential immunogenic targets provides extensive self-recognition plasticity. Autoimmunity is characterized by a dynamic self-recognition process in which the primary autoreactivity initiating disease is soon followed and often displaced by secondary neoautoreactivities, or epitope spreading, that emerge as a result of endogenous self-priming. Here we show that the autoimmune disease process involves a tertiary phase of self recognition characterized by stem cell reconstitution of autoreactive T cells that recapitulates the myelin self recognition process involved in disease initiation and spreading during experimental autoimmune encephalomyelitis (EAE). Our study indicates that sustained autoimmune memory may not simply be due to the persistence of long-lived memory T cells, but may also involve bone marrow regeneration and replacement of the autoreactive T cell repertoire.

Human and murine lymphocyte neurotrophin expression is confined to B cells.

Recent reports indicate that autoreactive T cells may produce neurotrophic factors capable of mediating repair and regeneration of damaged neurons. By using semiquantitative RT-PCR, we examined gene expression of nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and the trkB BDNF receptor in autoreactive T cells from SWXJ mice immunized with the p104-117 encephalitogen of myelin proteolipid protein (PLP 104-117). We observed antigen-inducible expression of NGF and BDNF, but not NT-3 and trkB, in lymph node cells activated with PLP 104-117. To determine which leukocyte subpopulation expressed neurotrophins, CD4(+), CD8(+), B220(+), CD11b(+), and NK1.1(+) cells were purified from activated primary cultures, and their mRNAs were analyzed. Neurotrophin expression was also measured in CD3(+) T cells purified from mouse CNS during acute onset of experimental autoimmune encephalomyelitis as well as in resting and activated human T cells and B cells purified from peripheral blood of normal subjects. In all cases, we found that neurotrophin expression was confined exclusively to B cells (B220(+)) in both mouse and human. CD3(+), CD4(+), and CD8(+) T cells as well as NK1.1(+) cells and CD11b(+) monocytes and macrophages did not express any detectable BDNF, NGF, NT-3, or trkB under any conditions. Our data indicate that B cells rather than T cells are the predominant if not the only source of leukocyte-derived neurotrophins and as such may provide "protective autoimmunity" in repair and regeneration of the injured nervous system.

Murine autoimmune hearing loss mediated by CD4+ T cells specific for inner ear peptides.

Autoimmune sensorineural hearing loss (ASNHL) is characterized typically by bilateral, rapidly progressive hearing loss that responds therapeutically to corticosteroid treatment. Despite its name, data implicating autoimmunity in the etiopathogenesis of ASNHL have been limited, and targeted self-antigens have not been identified. In the current study we show that the inner ear-specific proteins cochlin and beta-tectorin are capable of targeting experimental autoimmune hearing loss (EAHL) in mice. Five weeks after immunization of SWXJ mice with either Coch 131-150 or beta-tectorin 71-90, auditory brainstem responses (ABR) showed significant hearing loss at all frequencies tested. Flow cytometry analysis showed that each peptide selectively activated CD4(+) T cells with a proinflammatory Th1-like phenotype. T cell mediation of EAHL was determined by showing significantly increased ABR thresholds 6 weeks after adoptive transfer of peptide-activated CD4(+) T cells into naive SWXJ recipients. Immunocytochemical analysis showed that leukocytic infiltration of inner ear tissues coincided with onset of hearing loss. Our study provides a contemporary mouse model for clarifying our understanding of ASNHL and facilitating the development of novel effective treatments for this clinical entity. Moreover, our data provide experimental confirmation that ASNHL may be a T cell-mediated organ-specific autoimmune disorder of the inner ear.

A novel class II-binding motif selects peptides that mediate organ-specific autoimmune disease in SWXJ, SJL/J, and SWR/J mice.

Idiopathic dilated cardiomyopathy (DCM) is responsible for approximately 25% of all cases of congestive heart failure. We have recently shown that immunization of autoimmune-susceptible SWXJ mice with whole cardiac myosin leads to T cell-mediated experimental autoimmune myocarditis (EAMC) and DCM. We have now identified two disease-inducing peptides from cardiac alpha-myosin heavy chain (CAMHC). Our approach involved the use of a novel MHC class II-binding motif contained in several peptides known to be immunogenic in SWXJ (H-2(q,s)) mice or in the parental SJL/J (H-2(s)) or SWR/J (H-2(q)) mouse strains. Two of four CAMHC peptides containing the -KXXS- peptide motif were found to be immunogenic. Immunization of SWXJ or parental SJL/J and SWR/J mice with CAMHC peptides palpha406-425 or palpha1631-1650 resulted in EAMC and DCM, characterized by inflammation, fibrosis, and decompensated right-sided ventricular dilatation. Despite mediating high incidences of severe disease, both peptides were found to be cryptic determinants, thereby providing further evidence for the importance and perhaps predominance of self crypticity in autoimmunity. Both peptides showed dual parental I-A(q) and I-A(s) restriction and mediated passive transfer of disease with activated CD4(+) T cells. An intact motif was necessary for antigenicity because loss of activity occurred in peptides containing nonconservative substitutions at the motif's terminal lysine and serine residues. Our studies provide a new model for EAMC and DCM in strains of mice widely used in autoimmune studies. Moreover, the -KXXS- motif may be particularly useful in implicating previously overlooked proteins as autoimmune targets and in facilitating the development of new organ-specific autoimmune mouse models for human diseases.

An organic CD4 inhibitor reduces the clinical and pathological symptoms of acute experimental allergic encephalomyelitis.

CD4(+) T cells have an important role in mediating the pathogenesis of many human and experimental autoimmune diseases including experimental allergic encephalomyelitis (EAE), a demyelinating animal model for multiple sclerosis (MS). We applied a computer screening approach to select a small organic molecule, TJU103, that would specifically inhibit autoreactive CD4(+) T cells by disrupting the function of the CD4 molecule during activation. Upon studying the therapeutic effect of TJU103 in acute EAE, it was found that administration shortly before or after the onset of clinical symptoms reduced the severity of disease in both SJL and SWXJ-14 mouse models. In addition, TJU103 treatment could affect both in vivo responses to EAE rechallenge and secondary in vitro proliferation and cytokine production of T cells responding to proteolipid protein epitope 139-151 (PLPe). These results demonstrate the potential of the TJU103 organic inhibitor for future clinical application in CD4(+) T cell-mediated diseases.