NM101 Phase III study of NE3107 in Alzheimer's disease: rationale, design and therapeutic modulation of neuroinflammation and insulin resistance.

Recently, the roles of inflammation and insulin resistance in neurodegeneration have become better appreciated. NE3107, an oral small molecule, blood-brain permeable anti-inflammatory insulin sensitizer that binds extracellular signal-regulated kinase, has been shown to selectively inhibit inflammation-driven ERK- and NF-κB-stimulated inflammatory mediators, including TNF-α, without inhibiting their homeostatic functions. We describe the rationale and design of NM101, the first randomized, multicenter Phase III clinical study to examine the safety and efficacy of 30 week treatment with NE3107 versus placebo in elderly adults with mild-to-moderate Alzheimer's disease. Patients (316) will be randomized in a 1:1 ratio. The co-primary end points measure cognitive function (ADAS Cog12), and functional and behavioral characteristics (ADCS CGIC). Trial registration number: NCT04669028 (Clinicaltrials.gov).

Lay abstract Diabetes and other inflammatory diseases increase the risk of Alzheimer's disease. Insulin controls energy use in both the body and the brain. NE3107 is an oral pharmaceutical that has been shown to decrease inflammation and to improve insulin function in animals and in human subjects. We have designed a Phase III clinical trial to test the safety and activity of NE3107 in 316 elderly adults with Alzheimer's disease, compared with a placebo capsule. After 30 weeks, assessments will be made to look for benefits in cognition, function and behavior compared with the control group.

A synthetic anti-inflammatory sterol improves insulin sensitivity in insulin-resistant obese impaired glucose tolerance subjects.

OBJECTIVE: To study the activity of HE3286 (17α-ethynylandrost-5-ene-3ß,7ß,17ß-triol), an anti-inflammatory sterol that is active in models of obesity-induced inflammation and insulin resistance in high body mass index (BMI) subjects with impaired glucose tolerance (IGT). DESIGN AND METHODS: HE3286 was explored in high BMI IGT subjects using hyperinsulinemic, euglycemic clamp studies. RESULTS: In insulin-resistant subjects, HE3286 significantly increased day 29 insulin-stimulated glucose disposal and HDL cholesterol, and decreased C-reactive protein (CRP) compared to placebo. For HE3286, change in M value showed a significant negative correlation with baseline M value. Subjects with baseline M value below the median (4.2 mg/kg/min) had significantly lower adiponectin and higher lipopolysaccharide-stimulated peripheral blood mononuclear cell cytokine secretion. After 28 days of HE3286 treatment, adiponectin levels were significantly increased in insulin-resistant (baseline M < 4.2), but not insulin-sensitive (baseline M > 4.2) subjects, compared to placebo. CONCLUSIONS: HE3286 significantly increased the frequency of subjects with increased insulin-stimulated glucose disposal and HDL, and decreased CRP compared to placebo, in insulin-resistant, but not insulin-sensitive subjects. Thus, HE3286 may preferentially benefit insulin-resistant, inflamed, high BMI IGT subjects.

17α-Ethynyl-androst-5-ene-3ß,7ß,17ß-triol (HE3286) Is Neuroprotective and Reduces Motor Impairment and Neuroinflammation in a Murine MPTP Model of Parkinson's Disease.

17α-Ethynyl-androst-5-ene-3ß,7ß,17ß-triol (HE3286) is a synthetic androstenetriol in Phase II clinical development for the treatment of inflammatory diseases. HE3286 was evaluated for blood-brain barrier (BBB) permeability in mice, and efficacy in a 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) murine model of Parkinson's disease (PD). We found that HE3286 freely penetrated the BBB. HE3286 treatment significantly improved motor function compared to vehicle in the rotarod test (mean 58.2 sec versus 90.9 sec, P < 0.0001), and reduced inflammatory mediator gene expression in the brain (inducible nitric oxide synthase, 20%, P = 0.002; tumor necrosis factor α, 40%, P = 0.038, and interleukin-1ß, 33%, P = 0.02) measured by reverse-transcriptase polymerase chain reaction. Brain tissue histopathology and immunohistochemistry showed that HE3286 treatment increased the numbers of tyrosine hydroxylase-positive cells by 17% compared to vehicle (P = 0.003), and decreased the numbers of damaged neurons by 38% relative to vehicle (P = 0.029). L-3,4-dihydroxyphenylalanine (L-DOPA) efficacy was not enhanced by concurrent administration of HE3286. HE3286 administration prior to MPTP did not enhance efficacy. Our data suggest a potential role for HE3286 in PD treatment, and provides incentive for further investigation.

Molecular targets for 17α-ethynyl-5-androstene-3ß,7ß,17ß-triol, an anti-inflammatory agent derived from the human metabolome.

HE3286, 17α-ethynyl-5-androstene-3ß, 7ß, 17ß-triol, is a novel synthetic compound related to the endogenous sterol 5-androstene-3ß, 7ß, 17ß-triol (ß-AET), a metabolite of the abundant adrenal steroid dehydroepiandrosterone (DHEA). HE3286 has shown efficacy in clinical studies in impaired glucose tolerance and type 2 diabetes, and in vivo models of types 1 and 2 diabetes, autoimmunity, and inflammation. Proteomic analysis of solid-phase HE3286-bound bead affinity experiments, using extracts from RAW 264.7 mouse macrophage cells, identified 26 binding partners. Network analysis revealed associations of these HE3286 target proteins with nodes in the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways for type 2 diabetes, insulin, adipokine, and adipocyte signaling. Binding partners included low density lipoprotein receptor-related protein (Lrp1), an endocytic receptor; mitogen activated protein kinases 1 and 3 (Mapk1, Mapk3), protein kinases involved in inflammation signaling pathways; ribosomal protein S6 kinase alpha-3 (Rsp6ka3), an intracellular regulatory protein; sirtuin-2 (Sirt2); and 17ß-hydroxysteroid dehydrogenase 1 (Hsd17ß4), a sterol metabolizing enzyme.

Studies of the pharmacology of 17α-ethynyl-androst-5-ene-3ß,7ß,17ß-triol, a synthetic anti-inflammatory androstene.

17α-Ethynyl-androst-5ene-3ß, 7ß, 17ß-triol (HE3286) is an orally bioavailable analogue of androst-5-ene-3ß,7ß,17ß-triol, a non-glucocorticoid anti-inflammatory metabolite of the adrenal steroid, dehydroepiandrosterone. The pharmacology of HE3286 was characterized in preparation for clinical trials in type 2 diabetes mellitus and other diseases of inflammation. Interactions with nuclear hormone receptors and P450 enzymes were measured in vitro. Drug metabolism was studied preclinically in mice, rats, dogs, and monkeys. Neurological and cardiopulmonary safety and dose-ranging and chronic toxicity studies were conducted in rats and dogs in accordance with FDA guidelines. Pharmacokinetics and metabolites were measured in Phase I clinical trials. HE3286 was differentially metabolized between species. HE3286 and metabolites did not bind or transactivate steroid binding nuclear hormone receptors or inhibit P450 enzymes. There were no adverse effects in safety pharmacology and canine toxicology studies. Although HE3286 did not elicit systemic toxicity in rats, mild estrogenic effects were observed, but without apparent association to hormonal changes. Safety margins were greater than 20-fold in rats and dogs with respect to the most commonly used clinical dose of 10 mg/day. The terminal half-life in humans was 8 hours in males and 5.5 hours in females. HE3286 is the first derivative of the DHEA metabolome to undergo a comprehensive pharmacological and safety evaluation. The results of these investigations have shown that HE3286 has a low potential for toxicity and possesses pharmacological properties generally suitable for use in human medicine. The favorable profile of HE3286 warrants further exploration of this new class of anti-inflammatory agents.

Phase I and Phase II clinical trials of androst-5-ene-3ß,7ß,17ß-triol.

UNLABELLED: The immune regulating DHEA metabolite, androst-5-ene-3ß,7ß,17ß-triol (ßAET), was evaluated for safety, cholesterol lowering, and vaccine enhancement in phase I and phase II clinical trials. Safety and pharmacokinetics were evaluated in one study of normal subjects that received ßAET or placebo transmucosally (buccal tablets) for 4 days. In a second study ßAET was given by daily subcutaneous injection for 3 days. ßAET was subsequently evaluated in placebo-controlled trials for cholesterol lowering in hyperlipidemic subjects and for potentiation of hepatitis B surface antigen (HBsAg) vaccine in elderly subjects. Adverse events were primarily associated with injection site reactions. Pharmacokinetics indicated that ßAET was rapidly cleared after either route of administration in both normal and elderly subjects. Plasma ßAET concentrations typically declined below the limit of detection within a few hours of administration. ßAET pharmacokinetics was similar in males and females and in normal and elderly subjects. ßAET significantly lowered cholesterol in normal adult, but not in elderly or hyperlipidemic subjects. HBsAg titers were not increased in elderly ßAET treated subjects relative to placebo. CONCLUSIONS: Short-term administration of ßAET is safe in humans. ßAET has a cholesterol lowering effect in healthy humans, but not hyperlipidemics. Exogenous ßAET appeared to be rapidly metabolized, which may be consequential to the lack of pharmacological activity. A longer duration of ßAET treatment with higher doses or chemical derivatives that are resistant to metabolic inactivation are likely necessary to treat human disease. The utility of ßAET in humans may be limited to maintenance of homeostasis in healthy adults.

Pharmacology and immune modulating properties of 5-androstene-3ß,7ß,17ß-triol, a DHEA metabolite in the human metabolome.

Androst-5-ene-3ß,7ß,17ß-triol (ßAET) is an anti-inflammatory metabolite of DHEA that is found naturally in humans, but in rodents only after exogenous DHEA administration. Unlike DHEA, C-7-oxidized DHEA metabolites cannot be metabolized into potent androgens or estrogens, and are not peroxisome proliferators in rodents. The objective of our current studies was to characterize the pharmacology of ßAET to enable clinical trials in humans. The pharmacology of ßAET was characterized by pharmacokinetics, drug metabolism, nuclear hormone receptor interactions, androgenicity, estrogenicity, and systemic toxicity studies. ßAET's acute anti-inflammatory activity and immune modulating characteristics were measured in vitro in RAW264.7 cells and in vivo in murine models with parenteral administration. ßAET was rapidly metabolized and cleared from circulation in mice and monkeys. ßAET was weakly androgenic and estrogenic in immature rodents, but not bound by androgen, estrogen, progesterone, or glucocorticoid nuclear hormone receptors. ßAET did not induce peroxisome proliferation, nor was it systemically toxic or trophic for sex hormone responsive tissues in mature rats and monkeys. ßAET significantly attenuated acute inflammation both in vitro and in vivo, augmented immune responses in adult mice, and reversed immune senescence in aged mice. ßAET may contribute to the anti-inflammatory activity in rodents attributed to DHEA. Unlike DHEA, ßAET's anti-inflammatory activity cannot be ascribed to activation of PPARs, androgen, or estrogen nuclear hormone receptors. Exogenous ßAET is unlikely to produce untoward toxicity or hormonal perturbations in humans.

HE3286, an orally bioavailable synthetic analogue of an active DHEA metabolite suppresses spontaneous autoimmune diabetes in the non-obese diabetic (NOD) mouse.

5-Androstene-3ß,7ß,17ß-triol (AET) is a naturally occurring anti-inflammatory adrenal steroid that limits acute and chronic inflammation. HE3286 (17α-ethynyl-5-androstene-3ß,7ß,17ß-triol) is a synthetic derivative of AET with improved pharmaceutical properties and efficacy in some animal models of autoimmunity. Here, daily oral doses of HE3286 led to a suppression of spontaneous autoimmune diabetes in the non-obese diabetic mouse model of type 1 diabetes mellitus when administered either shortly before or after the first incidence of disease onset. Efficacy was associated with reduced insulitis and a suppression of the pathogenic T helper cell type 1 and type 17 phenotypes in peripheral lymphoid organs. These results demonstrate that daily oral treatment with HE3286 administrated relatively late in the destructive autoimmune process led to a suppression of type 1 diabetes mellitus onset and of the pathological inflammatory status, supporting its clinical evaluation in type 1 diabetes mellitus subjects.

A potential role for 5-androstene-3ß,7ß,17ß-triol in obesity and metabolic syndrome.

Metabolic syndrome is marked by perturbed glucocorticoid (GC) signaling, systemic inflammation, and altered immune status. Dehydroepiandrosterone (DHEA), a major circulating adrenal steroid and dietary supplement, demonstrates antiobesity, anti-inflammatory, GC-opposing and immune-modulating activity when administered to rodents. However, plasma DHEA levels failed to correlate with metabolic syndrome and oral replacement therapy provided only mild benefits to patients. Androstene-3ß,7ß,17ß-triol (ß-AET) an anti-inflammatory metabolite of DHEA, also exhibits GC-opposing and immune-modulating activity when administered to rodents. We hypothesized a role for ß-AET in obesity. We now report that plasma levels of ß-AET positively correlate with BMI in healthy men and women. Together with previous studies, the observations reported here may suggest a compensatory role for ß-AET in preventing the development of metabolic syndrome. The ß-AET structural core may provide the basis for novel pharmaceuticals to treat this disease.

Novel components of the human metabolome: the identification, characterization and anti-inflammatory activity of two 5-androstene tetrols.

Two natural 5-androstene steroid tetrols, androst-5-ene-3ß,7ß,16α,17ß-tetrol (HE3177) and androst-5-ene-3α,7ß,16α,17ß-tetrol (HE3413), were discovered in human plasma and urine. These compounds had significant aqueous solubility, did not bind or transactivate steroid-binding nuclear hormone receptors, and were not immunosuppressive in murine mixed-lymphocyte studies. Both compounds appear to be metabolic end products, as they were resistant to primary and secondary metabolism. Both were orally bioavailable, and were very well tolerated in a two-week dose-intensive toxicity study in mice. Anti-inflammatory properties were found with exogenous administration of these compounds in rodent disease models of multiple sclerosis, lung injury, chronic prostatitis, and colitis.

17α-ethynyl-5α-androstane-3α, 17ß-diol treatment of MNU-induced mammary cancer in rats.

N-methyl-N-nitrosourea (MNU) induces estrogen-dependent mammary tumors in female Lewis rats. We explored the antineoplastic activity of a synthetic androstane derivative, 17α-ethynyl-5α-androstane-3α, 17ß-diol (HE3235), as a single agent or in combination with docetaxel compared to tamoxifen, anastrazole, and docetaxel monotherapies against MNU-induced mammary tumors in female Lewis rats. Treatment with HE3235 alone rapidly reduced tumor burden, similar in effect to tamoxifen and anastrozole. The combination of HE3235 with docetaxel was more effective than any single agent, although without apparent toxicity. Only HE3235 or HE3235 plus docetaxel continued to suppress tumor growth after cessation of treatment. HE3235 treatment increased immunohistochemical markers of apoptosis and expression of proapoptotic genes and estrogen receptor beta and decreased expression of antiapoptotic genes, androgen receptor, and estrogen receptor alpha. These data warrant clinical investigation of HE3235 for breast cancer treatment.

5-androstenediol ameliorates pleurisy, septic shock, and experimental autoimmune encephalomyelitis in mice.

Androstenediol (androst-5-ene-3ß,17ß-diol; 5-AED), a natural adrenal steroid, has been shown to suppress experimental autoimmune encephalomyelitis (EAE) in female SJL/J mice. We here report that 5-AED limits inflammation and proinflammatory cytokines including TNFα in murine models of carrageenan-induced pleurisy and lippopolysaccaride- (LPS) induced septic shock. 5-AED binds to and transactivates sex steroid receptors with the same general rank order of potency (ERß > ERα ≫ AR). 5-AED provides benefit in EAE in a dose-dependent fashion, even when treatment is delayed until onset of disease. The minimally effective dose may be as low as 4 mg/kg in mice. However, benefit was not observed when 5-AED was given in soluble formulation, leading to a short half-life and rapid clearance. These observations suggest that treatment with 5-AED limits the production of pro-inflammatory cytokines in these animal models and, ultimately, when formulated and administered properly, may be beneficial for patients with multiple sclerosis and other Th1-driven autoimmune diseases.

5-Androstene-3ß,7ß,17ß-triol (ß-AET) slows thermal injury induced osteopenia in mice: relation to aging and osteoporosis.

5-Androstene-3ß,7ß,17ß-triol (ß-AET), an active metabolite of dehydroepiandrosterone (DHEA), reversed glucocorticoid (GC)-induced suppression of IL-6, IL-8 and osteoprotegerin production by human osteoblast-like MG-63 cells and promoted osteoblast differentiation of human mesenchymal stem cells (MSCs). In a murine thermal injury model that includes glucocorticoid-induced osteopenia, ß-AET significantly (p<0.05) preserved bone mineral content, restored whole body bone mineral content and endochondral growth, suggesting reversal of GC-mediated decreases in chondrocyte proliferation, maturation and osteogenesis in the growth plate. In men and women, levels of ß-AET decline with age, consistent with a role for ß-AET relevant to diseases associated with aging. ß-AET, related compounds or synthetic derivatives may be part of effective therapeutic strategies to accelerate tissue regeneration and prevent or treat diseases associated with aging such as osteoporosis.

HE3286, an oral synthetic steroid, treats lung inflammation in mice without immune suppression.

BACKGROUND: 17α-Ethynyl-5-androsten-3ß, 7ß, 17ß-triol (HE3286) is a synthetic derivative of an endogenous steroid androstenetriol (ß-AET), a metabolite of the abundant adrenal steroid deyhdroepiandrosterone (DHEA), with broad anti-inflammatory activities. We tested the ability of this novel synthetic steroid with improved pharmacological properties to limit non-productive lung inflammation in rodents and attempted to gauge its immunological impact. METHODS AND RESULTS: In mice, oral treatment with HE3286 (40 mg/kg) significantly (p < 0.05) decreased neutrophil counts and exudate volumes (~50%) in carrageenan-induced pleurisy, and myeloperoxidase in lipopolysaccharide-induced lung injury. HE3286 (40 mg/kg) was not found to be profoundly immune suppressive in any of the classical animal models of immune function, including those used to evaluate antigen specific immune responses in vivo (ovalbumin immunization). When mice treated for two weeks with HE3286 were challenged with K. pneumoniae, nearly identical survival kinetics were observed in vehicle-treated, HE3286-treated and untreated groups. CONCLUSIONS: HE3286 represents a novel, first-in-class anti-inflammatory agent that may translate certain benefits of ß-AET observed in rodents into treatments for chronic inflammatory pulmonary disease.

Oral treatment with HE3286 ameliorates disease in rodent models of rheumatoid arthritis.

HE3286 (17alpha-ethynyl-5-androstene-3beta, 7beta, 17beta-triol) is an orally bio-available synthetic derivative of naturally occurring androstene-3beta, 7beta, 17beta-triol. Our present data show that oral treatment with HE3286, favourably influenced the course of arthritis in the rat model of adjuvant-induced arthritis (reduced cumulative disease scores and paw edema), and in the mouse model of collagen antibody-induced arthritis (reduced clinical paw scores). Importantly, HE3286 was not immune suppressive in human mixed lymphocyte reaction or in animals challenged with Coxsackie B3 virus. HE3286 is currently in phase I/II clinical trials in rheumatoid arthritis and ulcerative colitis and these findings further strengthen the possibility that HE3286 may represent an effective anti-inflammatory agent useful for treating chronic inflammation with a more attractive safety profile than glucocorticoids or cyclooxygenase inhibitors.

An orally bioavailable synthetic analog of an active dehydroepiandrosterone metabolite reduces established disease in rodent models of rheumatoid arthritis.

Dehydroepiandrosterone (DHEA) treatment provides diverse anti-inflammatory benefits in rodent models of diseases, including rheumatoid arthritis (RA), but only limited benefits to patients. In rodents, DHEA is metabolized to (among others) androstene-3beta,7beta,17beta-triol (AET), which retains potent anti-inflammatory activity. 17Alpha-ethynyl-5-androstene-3beta,7beta,17beta-triol (HE3286) is a novel, metabolically stabilized, orally bioavailable derivative of AET. In the DBA mouse model of collagen-induced arthritis (CIA), once-daily oral treatments (gavage) with HE3286 (40 mg/kg), beginning at onset of disease, significantly decreased disease. Benefit was associated with reduction in joint inflammation, erosion, and synovial proliferation as measured by histological analysis and mRNA of proinflammatory cytokines, including tumor necrosis factor-alpha, interleukin (IL)-6, IL-1beta, and IL-23. Significant benefit was also observed in the CIA model even when treatments were delayed until 7 days after the onset of arthritis. Furthermore, dose-dependent benefit was observed in the DBA mouse model of collagen antibody-induced arthritis, as well as reductions in IL-6 and matrix metalloproteinase-3 mRNA levels in joints at the peak of disease and at the end of the study. HE3286, in contrast to dexamethasone, was not immune-suppressive in several classic animal models of immune function. Instead, HE3286 treatment was associated with reduced nuclear factor-kappaB activation and in our previous studies, with increased regulatory T cells. We hypothesize that HE3286 may represent a novel, perhaps first-in-class, anti-inflammatory agent and may more fully translate the benefits of DHEA, heretofore largely limited to rodents, into treatments for human diseases, including autoimmune disorders such as RA.

7-Hydroxy androstene steroids and a novel synthetic analogue with reduced side effects as a potential agent to treat autoimmune diseases.

The metabolome of dehydroepiandrosterone (DHEA), the most abundant adrenal steroid in the human body, includes androgens, estrogens and a series of immune regulating hormones that lack androgenic or estrogenic activity. Of these, 7-hydroxy derivatives, once considered physiologically inactive end products of metabolism, possess a combination of potent anti-inflammatory and immune modulating activity without androgenic or estrogenic capacity. Oxygenated metabolites derived from androstenediol (AED), the predominant precursor in rodents, may be responsible for many activities initially attributed to exogenous DHEA administered to rodents. We here review the discovery of these compounds in models of inflammation and autoimmune diseases, discuss the potential mode of action and trace the development of a specific synthetic derivative, which is less labile to metabolism and which may at last deliver to humans the benefits of DHEA observed in rodents.

A synthetic androstene analogue inhibits collagen-induced arthritis in the mouse.

Dehydroepiandrosterone (DHEA), a precursor of immune-regulating hormones (IRH) including the androstenes, has attracted much interest over the last several decades because of its many antiaging, metabolic, and immune modulating effects. 5-Androstene-16alpha fluoro-17-one (fluasterone, also known as HE2500) is a synthetic androstene analogue that retains anti-inflammatory, antiproliferative, and immune-regulating activities of the parent molecule, but is nontoxic and practically devoid of androgenic or estrogenic side effects. In the present studies, we tested the ability of fluasterone to limit disease in the DBA mouse model of collagen-induced arthritis (CIA). We found that mice receiving injections of fluasterone displayed significant delay in onset, decrease in CIA peak score, and significant decrease of the daily mean clinical score. Benefit was associated with significant decreases in (1). bovine type II collagen (bCII)-specific IgG(1) and IgG(2a) antibody levels in serum; (2). production of TNF-alpha, IL-6, IFN-gamma, but not IL-10; (3). lymphocyte proliferative response to bCII protein; and (4). joint inflammation, erosion, and synovial proliferation as judged by histological analysis. This is the first study to report that an IRH can ameliorate ongoing disease in a CIA mouse model with relevance to RA and to correlate that finding with decreases in pro-inflammatory cytokines.

A synthetic androstene derivative and a natural androstene metabolite inhibit relapsing-remitting EAE.

Experimental allergic encephalomyelitis (EAE), a Th1 polarized demyelinating disease of the central nervous system (CNS), shares many pathological and clinical similarities with multiple sclerosis (MS), and thus represents an attractive animal model for this disease. The goal of this study was to evaluate the suppressive effects of fluasterone (HE2500), a synthetic androstene derivative, and androstenetriol (HE2200), a natural androstene hormone on EAE. SJL mice were immunized with proteolipid protein (PLP) 139-151 peptide/CFA to induce EAE. Starting on day -7, animals were given daily injections (s.c.) of derivatives (3.0 mg) in vehicle, or vehicle alone for 33 days. Both HE2500 and HE2200 significantly delayed the onset, reduced the peak clinical score and cumulative disease index of EAE, and prevented or significantly attenuated relapses. Lower doses or other routes of administration were less effective. Moreover, T cells from treated mice had significantly reduced PLP 139-151-specific T cell proliferation responses and reduced numbers of TNF-alpha- and IFN-gamma-producing cells in the CNS. Daily treatment of B10.PL mice with HE2500, starting on day 0, completely prevented the development of disease in these animals. Finally, SJL mice treated with HE2500 at EAE onset showed significantly reduced mean clinical scores. Thus, these compounds, which have been reported to have a few androgenic or estrogenic side effects, appear to have a potent inhibitory activity in EAE. These observations suggest that HE2500 and/or HE2200 limit the production of autoimmune Th1 associated cytokines, and ultimately may be beneficial for patients with MS or other autoimmune diseases.