Proposed immunologic models of the inflammatory myopathies and potential therapeutic implications

Calpeptin attenuated apoptosis and intracellular inflammatory changes in muscle cells

In idiopathic inflammatory myopathies (IIMs), extracellular inflammatory stimulation is considered to induce secondary intracellular inflammatory changes including expression of major histocompatibility complex class-I (MHC-I) and to produce a self-sustaining loop of inflammation. We hypothesize that activation of calpain, a Ca(2+) -sensitive protease, bridges between these extracellular inflammatory stress and intracellular secondary inflammatory changes in muscle cells. In this study, we demonstrated that treatment of rat L6 myoblast cells with interferon-γ (IFN-γ) caused expression of MHC-I and inflammation-related transcription factors (phosphorylated-extracellular signal-regulated kinase 1/2 and nuclear factor-κB). We also demonstrated that treatment with tumor necrosis factor-α (TNF-α) induced apoptotic changes and activation of calpain and cyclooxygenase-2. Furthermore, we found that posttreatment with calpeptin attenuated the intracellular changes induced by IFN-γ or TNF-α. Our results indicate that calpain inhibition attenuates apoptosis and secondary inflammatory changes induced by extracellular inflammatory stimulation in the muscle cells. These results suggest calpain as a potential therapeutic target for treatment of IIMs.

Calpain inhibition attenuates intracellular changes in muscle cells in response to extracellular inflammatory stimulation

Idiopathic inflammatory myopathies (IIMs), comprising of polymyositis, dermatomyositis, and inclusion-body myositis, are characterized by muscle weakness and various types of inflammatory changes in muscle cells. They also show non-inflammatory changes, including perifascicular atrophy, mitochondrial changes, and amyloid protein accumulation. It is possible that some molecules/mechanisms bridge the extracellular inflammatory stimulation and intracellular non-inflammatory changes. One such mechanism, Ca(2+) influx leading to calpain activation has been proposed. In this study, we demonstrated that post-treatment with calpeptin (calpain inhibitor) attenuated intracellular changes to prevent apoptosis (Wright staining) through both mitochondrial pathway (increase in Bax:Bcl-2 ratio) and endoplasmic reticulum stress pathway (activation of caspase-12), which were induced by interferon-gamma (IFN-γ) stimulation in rat L6 myoblast cells. Our results also showed that calpeptin treatment inhibited the expression of calpain, aspartyl protease cathepsin D, and amyloid precursor protein. Thus, our results indicate that calpain inhibition plays a pivotal role in attenuating muscle cell damage from inflammatory stimulation due to IFN-γ, and this may suggest calpain as a possible therapeutic target in IIMs.

Dermatomyositis and type 1 interferons

Dermatomyositis is a poorly understood multisystem disease predominantly affecting skin and muscle. This review focuses on the potential role of a group of related cytokines, the type 1 interferons, in the pathogenesis of dermatomyositis. Type 1 interferon-inducible transcripts and proteins are uniquely elevated in dermatomyositis muscle compared with all other muscle diseases studied to date. The endothelial cell tubuloreticular inclusions present in affected dermatomyositis muscle are biomarkers of type 1 interferon exposure. The cell-poor lichenoid reaction in skin with predominant involvement of the basal epidermal cell layer and its topologic equivalent in muscle, perifascicular atrophy, may be lesions that develop directly in response to type 1 interferon signaling.

Theories of the pathogenesis of inclusion body myositis

Inclusion body myositis is a progressive disease of the skeletal muscle. Here, specific theories of its pathogenesis are reviewed and general considerations pertaining to modeling of this disease discussed. Understanding of inclusion body myositis disease mechanism remains extremely poor. Current published animal models do not represent the disease. Future studies need to consider the critical role of biomarkers and methodologic issues in their discovery.

Interstitial Lung Disease in Idiopathic Inflammatory Myopathy

The lung is one of the most common extra-muscular targets in idiopathic inflammatory myopathies (IIM) and interstitial lung disease (ILD) is a prevalent and often devastating manifestation of IIM. IIM-associated ILD (IIM-ILD) contributes to nearly 80% of the mortality in IIM with a reported prevalence of 65% of newly diagnosed IIM cases. Although ILD frequently accompanies clinical and laboratory findings of myositis, overt signs of muscle disease may be absent in the setting of significant lung disease. Understanding the varied scope of presentation of these diseases is essential to providing optimal patient care. This review will provide an in depth examination of ILD in IIM both from a rheumatologic and pulmonary perspective and will discuss the scope of disease, presenting features, genetic associations, pathogenesis, diagnosis, radiographic and histopathologic findings, along with biomarker assessment and a rationale for therapeutic intervention.

Type 1 interferons and myositis

Recent studies suggest a mechanistic role for molecules induced by type 1 interferons in the pathogenesis of some forms of myositis. For dermatomyositis, evidence that these molecules injure myofibers seems especially strong. In the group of disorders known as polymyositis, the study of blood samples suggests a potential role. It is unknown what drives the sustained presence of type 1 interferon-inducible molecules in these diseases, as the type 1 interferons themselves have not been specifically detected along with their downstream biomarkers. Therapeutic development for blockade of IFNα is in progress aided by the identification of blood genomic biomarkers.

Interferon-stimulated gene 15 (ISG15) conjugates proteins in dermatomyositis muscle with perifascicular atrophy

OBJECTIVE

We investigated interferon-stimulated gene 15 (ISG15), a poorly understood ubiquitin-like modifier, and its enzymatic pathway in dermatomyositis (DM), an autoimmune disease primarily involving muscle and skin.

METHODS

We generated microarray data measuring transcript abundance for approximately 18,000 genes in each of 113 human muscle biopsy specimens, and studied biopsy specimens and cultured skeletal muscle using immunohistochemistry, immunoblotting proteomics, real-time quantitative polymerase chain reaction, and laser-capture microdissection.

RESULTS

Transcripts encoding ISG15-conjugation pathway proteins were markedly upregulated in DM with perifascicular atrophy (DM-PFA) muscle (ISG15 339-fold, HERC5 62-fold, and USP18 68-fold) compared with 99 non-DM samples. Combined analysis with publicly available microarray datasets showed that >50-fold ISG15 transcript elevation had 100% sensitivity and specificity for 28 biopsies from adult DM-PFA and juvenile DM patients compared with 199 muscle samples from other muscle diseases. Free ISG15 and ISG15-conjugated proteins were only found on immunoblots from DM-PFA muscle. Cultured human skeletal muscle exposed to type 1 interferons produced similar transcripts and ISG15 protein and conjugates. Laser-capture microdissection followed by proteomic analysis showed deficiency of titin in DM perifascicular atrophic myofibers.

INTERPRETATION

A large-scale microarray study of muscle samples demonstrated that among a diverse group of muscle diseases DM was uniquely associated with upregulation of the ISG15 conjugation pathway. Exposure of human skeletal muscle cell culture to type 1 interferons produced a molecular picture highly similar to that seen in human DM muscle. Perifascicular atrophic myofibers in DM were deficient in a number of skeletal muscle proteins including titin.

Human plasmacytoid dendritic cell accumulation amplifies their type 1 interferon production

To determine the potential consequences of plasmacytoid dendritic cell (pDC) accumulation in tissue sites observed in several autoimmune diseases, we measured type 1 interferon production from circulating human pDCs as a function of pDC concentration. The effects of interferon-alpha and blockade of the type 1 interferon receptor (IFNAR) on human pDC type 1 interferon and interferon-inducible transcription and protein production were measured. Human pDCs became far more efficient producers of interferon-alpha at concentrations beyond those normally present in blood, through an IFNAR-dependent mechanism. Extracellular interferon-alpha increased pDC production of type 1 interferons. The accumulation of pDCs in diseased tissue sites allows marked non-linear amplification of type 1 interferon production locally. The role of the IFNAR-dependent mechanism of interferon production by human pDCs is greater than previously suggested. IFNAR blockade has potential for diminishing type 1 interferon production by all human cells.

Inflammatory myopathy with abundant macrophages and dermatomyositis: two stages of one disorder or two distinct entities?

Inflammatory myopathy with abundant macrophages (IMAM) and dermatomyositis (DM) are considered to represent related disorders, since they share inflammatory infiltrates and skin alterations. In order to get more insight into these disorders, we addressed the cellular composition of the inflammatory infiltrates in muscle biopsies of 11 patients with IMAM and DM. In IMAM, inflammatory infiltrates predominantly consisted of CD68+ MRP14+ macrophages which weakly expressed TNF-α, a few CD3+ T cells with a prominent IL-10 expression, and single CD123+ plasmacytoid dendritic cells. In DM, infiltrates were mainly composed of CD3+ CD4+ T cells which expressed IL-10, numerous CD123+ plasmacytoid dendritic cells, and CD20+ B cells. The low number of CD68+ macrophages was of 25F9+ late inflammatory phenotype. Membrane attack complex was expressed in necrotic muscle fibers in IMAM and on endomysial capillaries in DM, respectively. Thus, in IMAM, the inflammatory reaction markedly differed from DM. These observations may lend support to the hypothesis that IMAM and DM are distinct with respect to their pathogenesis. Whether, alternatively, these differences in the cellular composition of the infiltrates and the cytokine profile rather reflect different stages of disease, will require the analysis of a larger series.

Dermatomyositis-like muscle pathology in patients with chronic graft-versus-host disease

Myositis is a rare complication of chronic graft-versus-host disease (cGVHD) following hematopoietic stem cell transplantation (HSCT). Almost all such patients have been reported to have polymyositis (PM). We describe clinical, pathologic, and molecular studies of 3 patients with cGVHD following allogeneic HSCT who developed myopathy. In each case, perifascicular atrophy, the pathognomonic histologic feature of dermatomyositis (DM), was observed.

[Dermatomyositis]

Dermatomyositis (DM) is a systemic inflammatory disease involving skin, muscles and other organs. Immunologically mediated inflammation of small vessels leads to vascular damage, especially of the muscular tissue. Typically DM presents clinically with DM-type local or generalized rash and proximal muscular weakness. Laboratory signs of muscular damage (elevated serum CK, myoglobinuria) may be initially absent. Magnetic resonance tomography frequently shows edema of the involved muscles, while electromyography shows a myopathic pattern with spontaneous activity. Muscle biopsy from involved muscle with histological, immunohistological, histochemical and possibly electron-microscopic examination confirms the diagnosis of inflammatory muscle disease and furthermore of DM-specific muscular findings. Typical findings include the deposition of 5b-9 complement components (membrane attack complex) at the capillaries, perifascicular inflammatory infiltrates composed predominantly of CD4+ T-lymphocytes, B-lymphocytes and plasmacytoid dendritic cells, endothelial swelling and damage, loss of capillaries with perifascicular atrophy and tubuloreticular endothelial inclusions on electron-microscopic examination. Detection of myositis-specific autoantibodies is especially helpful in the diagnosis of early and atypical cases with features of overlapping disease.

Idiopathic inflammatory myopathies: current and future therapeutic options

Idiopathic inflammatory myopathies (notably polymyositis and dermatomyositis) are relatively uncommon diseases with a heterogeneous clinical presentation. Only a few randomized, double-blind, placebo-controlled trials have been performed, measures to assess outcome and response to treatment have to be validated. Initial treatment options of first choice are corticosteroids, although rarely tested in randomized, controlled trials. Unfortunately, not all patients respond to them and many develop undesirable side effects. Thus, second line agents or immunosuppressants given in combination with corticosteroids are used. For dermatomyositis/polymyositis, combination with azathioprine is most common. In case this combination is not sufficient or applicable, intravenous immunoglobulins are justified. Alternative or stronger immunosuppressants, such as cyclosporine A, cyclophosphamide, methotrexate, or mycophenolate are also used. There are no defined guidelines or best treatment protocols agreed on internationally; therefore, the medical approach must be individualized based on the severity of clinical presentation, disease duration, presence of extramuscular features, and prior therapy and contraindications to particular agents. Approximately 25% of patients are nonresponders and continue to experience clinical relapses. Those are candidates for alternative treatment options and experimental therapies. New immunoselective therapies directed toward cytokine modulation, immune cell migration, or modification of certain immune subsets (B- and T-cells) are a promising avenue of research and clinical application. Possible future therapeutic options are presented and discussed.

Human myoblasts modulate the function of antigen-presenting cells

Muscle biopsy specimens of myositis patients were analyzed for the presence of dendritic cells (DC) and macrophages (MPh) by immunohistochemistry. The interaction of DC and myoblasts (MB) was studied by coculture and effects on DC phenotype and function were assessed by flow cytometry and T-cell proliferation assays. Effects of MB-lysates on the phagocytic capacity of MPh were analyzed in bead-incorporation assays. Myositis specimens revealed a tendency towards more immature DC. MB modulated the maturation state of DC and DC recovered from MB-coculture had an inhibitory effect on T-cell proliferation. MB-lysates strongly stimulated MPh phagocytosis. Hypothetically, MB might modulate APC, counterbalancing immune-mediated damage.

[Recent research developments in polymyositis/dermatomyositis]

The idiopathic inflammatory myopathies, polymyositis (PM) and dermatomyositis (DM), are evaluated as systemic autoimmune diseases without the pathology determined. Past immunohistochemical findings suggested that the effector response is driven predominantly by CD4 T cells and by humoral immunity in DM, and by cytotoxic T cells in PM. However, histological observations of muscle tissue do not necessarily distinguish DM and PM. Thus, the two diseases including amyopathic DM might represent a spectrum of illness in which some patients suffer only from a muscle disease or from a skin disease. In comparison with research studies on other rheumatic diseases, there are much fewer research studies conducted on PM/DM. The relationship between PM and DM is not clear yet. We reviewed past clinical and basic research on the pathology of PM/DM, including research on relevant T cells, B cells and cytokines.