Systemic high-dose recombinant-alpha-2a-interferon therapy modulates lymphokine production in multiple sclerosis

The Role of Interferon-α in Neurodegenerative Diseases: A Systematic Review

BACKGROUND

Neurodegenerative diseases (NDs) impose significant financial and healthcare burden on populations all over the world. The prevalence and incidence of NDs have been observed to increase dramatically with age. Hence, the number of reported cases is projected to increase in the future, as life spans continues to rise. Despite this, there is limited effective treatment against most NDs. Interferons (IFNs), a family of cytokines, have been suggested as a promising therapeutic target for NDs, particularly IFN-α, which governs various pathological pathways in different NDs.

OBJECTIVE

This systematic review aimed to critically appraise the currently available literature on the pathological role of IFN-α in neurodegeneration/NDs.

METHODS

Three databases, Scopus, PubMed, and Ovid Medline, were utilized for the literature search.

RESULTS

A total of 77 journal articles were selected for critical evaluation, based on the inclusion and exclusion criteria. The studies selected and elucidated in this current systematic review have showed that IFN-α may play a deleterious role in neurodegenerative diseases through its strong association with the inflammatory processes resulting in mainly neurocognitive impairments. IFN-α may be displaying its neurotoxic function via various mechanisms such as abnormal calcium mineralization, activation of STAT1-dependent mechanisms, and increased quinolinic acid production.

CONCLUSION

The exact role IFN-α in these neurodegenerative diseases have yet to be determine due to a lack in more recent evidence, thereby creating a variability in the role of IFN-α. Future investigations should thus be conducted, so that the role played by IFN-α in neurodegenerative diseases could be delineated.

Use of human peripheral blood mononuclear cells to define immunological properties of nucleic acid nanoparticles

This protocol assesses proinflammatory properties of nucleic acid nanoparticles (NANPs) using a validated preclinical model, peripheral blood mononuclear cells (PBMCs), that is highly predictive of cytokine responses. The experimental procedure details the preparation of pyrogen-free NANPs, isolation of PBMCs from freshly collected human blood, and analysis of characteristic biomarkers (type I and III interferons) produced by PBMCs transfected with NANPs. Although representative NANPs with high and low immunostimulatory potential are used as standards throughout the procedure, this protocol can be adapted to any NANPs or therapeutic nucleic acids, irrespective of whether they are carrier based or carrier free; additional cytokine biomarkers can also be included. We test several commercial platforms and controls broadly accessible to the research community to quantify all biomarkers in either single- or multiplex format. The continuous execution of this protocol takes <48 h; when immediate analysis is not feasible, single-use aliquots of the supernatants can be frozen and stored (-20 °C; 12 months).

Opportunities, Barriers, and a Strategy for Overcoming Translational Challenges to Therapeutic Nucleic Acid Nanotechnology

Recent clinical successes using therapeutic nucleic acids (TNAs) have accelerated the transition of nucleic acid nanotechnology toward therapeutic applications. Significant progress in the development, production, and characterization of nucleic acid nanomaterials and nucleic acid nanoparticles (NANPs), as well as abundant proof-of-concept data, are paving the way toward biomedical applications of these materials. This recent progress has catalyzed the development of new strategies for biosensing, imaging, drug delivery, and immunotherapies with previously unrecognized opportunities and identified some barriers that may impede the broader clinical translation of NANP technologies. A recent workshop sponsored by the Kavli Foundation and the Materials Research Society discussed the future directions and current challenges for the development of therapeutic nucleic acid nanotechnology. Herein, we communicate discussions on the opportunities, barriers, and strategies for realizing the clinical grand challenge of TNA nanotechnology, with a focus on ways to overcome barriers to advance NANPs to the clinic.

Nucleic Acid Nanoparticles at a Crossroads of Vaccines and Immunotherapies

Vaccines and immunotherapies involve a variety of technologies and act through different mechanisms to achieve a common goal, which is to optimize the immune response against an antigen. The antigen could be a molecule expressed on a pathogen (e.g., a disease-causing bacterium, a virus or another microorganism), abnormal or damaged host cells (e.g., cancer cells), environmental agent (e.g., nicotine from a tobacco smoke), or an allergen (e.g., pollen or food protein). Immunogenic vaccines and therapies optimize the immune response to improve the eradication of the pathogen or damaged cells. In contrast, tolerogenic vaccines and therapies retrain or blunt the immune response to antigens, which are recognized by the immune system as harmful to the host. To optimize the immune response to either improve the immunogenicity or induce tolerance, researchers employ different routes of administration, antigen-delivery systems, and adjuvants. Nanocarriers and adjuvants are of particular interest to the fields of vaccines and immunotherapy as they allow for targeted delivery of the antigens and direct the immune response against these antigens in desirable direction (i.e., to either enhance immunogenicity or induce tolerance). Recently, nanoparticles gained particular attention as antigen carriers and adjuvants. This review focuses on a particular subclass of nanoparticles, which are made of nucleic acids, so-called nucleic acid nanoparticles or NANPs. Immunological properties of these novel materials and considerations for their clinical translation are discussed.

Altered neuroantigen-specific cytokine secretion in a Th2 environment reduces experimental autoimmune encephalomyelitis

Activation of Th2 cells suppresses clinical experimental autoimmune encephalitis (EAE), demyelination and expression of genes associated with Th1-mediated inflammation. Despite both reduced central nervous system inflammation and IFN-gamma induced MHC class II expression by microglia, the composition of CNS infiltrates in Th2-protected mice were similar to mice with EAE. Analysis of the CNS infiltrating cells by flow cytometry suggests that protection did not correlate with abrogation of CD4+ T cell recruitment, preferential recruitment of donor Th2 cells or an increased frequency of CD25+ CD4+ T cells. By contrast, protection correlated with an increased frequency of neuroantigen-specific Th2 cells infiltrating the CNS. These data suggest that a peripheral Th2 cytokine environment influences both potential antigen presenting cells as well as recruitment and/or retention of neuroAg-specific Th2 CD4+ T cells.

The effects of interferon-alpha2a on concentrations of immunoglobulins, complement and lymphocytes in patients with multiple sclerosis

Multiple sclerosis (MS) patients treated with type I interferon experience reduced disease activity. Because immunoglobulins (Igs), complement and lymphocytes have been given a role in the pathogenesis of MS, we investigated the longitudinal effect of interferon-alpha2a (IFNA) on the variability of these parameters. Patients were treated for 6 months with 4.5 million international units (MIU) IFNA (24 patients), 9.0 MIU IFNA (21 patients) or placebo (23 patients). IFNA induced a significant increase in concentrations of total IgG and IgG subclasses 1, 3 and 4. At 6 months, the mean concentration of IgG had increased by 1.51 g/l (CI: 0.82, 2.21) in the 9.0 MIU IFNA group. There was no significant effect of IFNA treatment on concentrations of IgG2 and IgA, while the effect on IgM was borderline significant. After 6 months, IgM had increased by 0.29 g/l (CI: -0.01, 0.65) in the 9.0 MIU IFNA group. IFNA induced a significant increase in the concentration of C1 inhibitor (INH). At 3 months, the mean concentration of C1 INH had increased by 0.033 g/l (CI: 0.01, 0.05). At 3 months, C4 had increased by 0.05 g/l (CI: 0.01, 0.09) in the 9.0 MIU IFNA group. The effect of IFNA on C4 was inconclusive but indicates an effect during the initial phase of the treatment. C3 showed no significant treatment-mediated change. IFNA induced a significant decrease in lymphocyte concentrations by 0.56 x 106 lymphocytes/ml (CI: -0.81, -0.31) at 3 months. There were no significant associations between changes in immune parameters and changes in clinical and magnetic resonance imaging scores. The results verify that IFNA modulates and activates both the innate and the adaptive arms of the immune system. The observations should be of relevance when evaluating mechanisms of action of IFN treatment in MS.

An open-labeled, randomized study comparing systemic interferon-alpha-2A and prednisolone enemas in the treatment of left-sided ulcerative colitis

OBJECTIVE

The aim of this study was to compare the treatment efficacies of subcutaneous interferon-alpha-2A (IFN-alpha-2A) injections versus prednisolone enemas in active left-sided ulcerative colitis in an open-labeled, randomized study.

METHODS

Sixteen ulcerative colitis patients received IFN-alpha-2A subcutaneously (dosage: first wk, 9 MIU three times weekly [t.i.w.]; second wk, 6 MIU t.i.w.; wk 3-12, 3 MIU t.i.w.), and 16 received prednisolone enemas for 30 days (100 ml once daily, 0.25 mg of prednisolone/ml). The Powell-Tuck Index, Inflammatory Bowel Disease Questionnaire (IBDQ) score, and rectal histological activities were assessed before and after treatment. Thirteen patients in the IFN-alpha-2A group and all 16 in the prednisolone enema group completed the treatment.

RESULTS

IFN-alpha-2A treatment showed significant improvements in the Powell-Tuck Index (p = 0.0002), IBDQ score (p = 0.002), and rectal histological activity scores (p = 0.02). In the enema group, significant improvements were found in the Powell-Tuck Index (p = 0.0009), whereas no significant improvements were detected in the IBDQ scores (p = 0.055) or rectal histological scores (p = 0.052). There were no differences between scores of the two groups either before or after treatment. Only moderate side effects from the IFN-alpha-2A treatment were seen during the first 2-4 wk of treatment.

CONCLUSION

IFN-alpha-2A treatment resulted in significant depression of the disease activity as reflected by the Powell-Tuck Index, IBDQ score, and histological disease activity scoring. The preliminary trial thus suggests that IFN-alpha-2A may be effective in the treatment of active left-sided ulcerative colitis. Larger, randomized trials are, however, warranted to confirm this finding, owing to possible type II errors in group comparisons.

Interferon in relapsing-remitting multiple sclerosis

BACKGROUND

Recombinant interferons have been shown to suppress both the clinical and magnetic resonance imaging (MRI) measures of disease activity in patients with relapsing remitting multiple sclerosis (RRMS).

OBJECTIVES

We performed a Cochrane review of all randomised, placebo-controlled trials of recombinant interferons in RRMS.

SEARCH STRATEGY

Of 208 articles identified by a predefined search strategy, seven of these, reporting randomised trials, met all the selection criteria and form the subject of this review.

SELECTION CRITERIA

The trials selected were double-blind, placebo-controlled, randomised trials of RRMS patients who were treated with recombinant interferon, given by the subcutaneous or the intramuscular route.

DATA COLLECTION AND ANALYSIS

The quality of the trials was variable, with substantial methodological inadequacies in allocation concealment, high proportion and incomplete description of dropouts and failure to adhere to the principles of intention to treat analysis. The baseline characteristics were largely comparable between treatment and placebo groups. Because of prominent treatment-associated side effects, which could be easily identified by patients, these trials could be considered as single blind rather than double-blind.

MAIN RESULTS

Although 1215 patients were included in this review, only 919 (76%) contributed to the results concerning exacerbations and progression of the disease at two years. Specifically interferon significantly reduced the occurrence of exacerbations (RR =0.80, 95% CI [0.73,0.88], p<0.001) and progression of the disease (RR =0.69, 95% CI [0.55,0.87], p= 0.002) two years after randomisation. However, the correct assignment of dropouts was essential to the demonstration of efficacy, most conspicuously concerning the effect of the drug on disease progression. If interferon-treated patients who dropped out were deemed to have progressed (worst case scenario) the significance of these effects was lost (RR = 1.31, CI [0.60,2.89], p = 0.5). The evolution in magnetic resonance imaging (MRI) technology in the decade in which these trials were performed and different reporting of data among trials made it impossible to perform a quantitative analysis of the MRI results. Both clinical and laboratory side effects reported in the trials were more frequent in treated patients than in controls. No information was available regarding side effects and adverse events after two years of follow-up. The impact of interferon treatment (and its side effects) on the quality of life of patients was not reported in any trial included in this review.

REVIEWER'S CONCLUSIONS

The efficacy of interferon on exacerbations and disease progression in patients with relapsing remitting MS was modest after one and two years of treatment. It was not possible to conduct a quantitative analysis beyond two years. Longer follow-up and more uniform reporting of clinical and MRI outcomes among these trials might have allowed for a more convincing conclusion.

Gene therapy for autoimmune disease

Autoantigen-specific CD4(+) T lymphocytes have been implicated in the pathogenesis of autoimmune diseases. Tissue-specific homing properties of autoantigen-specific CD4(+) T cells suggested that these cells might be ideal vehicles for delivery of retroviral-encoded regulatory proteins in a site-specific manner as a therapy for autoimmune diseases. Application of retroviral transduction of autoantigen-reactive CD4(+) T cells in gene therapy of autoimmunity must include systems capable of targeting these rare populations of antigen-activated T cells. Studies discussed below suggest that retroviral transduction of autoantigen-specific murine CD4(+) T cells may provide a method to target and isolate nontransformed autoantigen-specific murine CD4(+) T cells and provide a rational approach to gene therapy in animal models of autoimmunity.

Recent developments in drug therapy for multiple sclerosis

Symptomatic treatment of multiple sclerosis (MS) includes a diverse range of drugs intended to relieve the specific symptoms with which a patient may present at a particular point in the progression of the disease. These drugs, not specifically designed for the treatment of MS, may include antispastic agents (e.g. baclofen), drugs to reduce tremor (e.g. clonazepam), anticholinergics (e.g. oxybutynin) which relieve urinary symptoms, anti-epileptics (e.g. carbamazepine) to control neuralgia, stimulants to reduce fatigue (e.g. amantadine), and antidepressants (e.g. fluoxetine) to treat depression. The treatment of acute relapses or exacerbations is dominated by corticosteroids such as methylprednisolone. The most active area of current investigation is the development of drugs which will inhibit the progression of the disease process itself, and in this category the beta- and alpha-interferons are the most effective drugs currently available, although many new treatments are currently in trials, including immunoglobulin, copolymer-1. bovine myelin, T-cell receptor (TCR) peptide vaccines, platelet activating factor (PAF) antagonists, matrix metallo-proteinase inhibitors, campath-1, and insulin-like growth factor (IGF).

A gene therapy approach to treatment of autoimmune disease

New insights into the underlying mechanisms for the development of autoimmune diseases in humans and various animal models continue to increase with our understanding of factors that drive polarization of T helper (Th) responses and tolerance. This information has led to the development of new treatment strategies, including oral tolerance clinical trails and the use of altered peptide ligands in animal models. These approaches have shown some promise and provided additional insight into the disease processes. The use of gene therapy in many disease states continues to increase. We are starting to see the application of gene therapy in chronic diseases in humans. Gene therapy has been used in several animal models of autoimmune disease with promising preliminary results. In this article, an overview will be provided for the use of gene therapy in autoimmune disease.