– Vidofludimus Calcium Consistently
Reduced Neurofilament Light Chain Levels, Compared to
Placebo, in the Interim Analysis of the Phase 2 CALLIPER Trial,
Across Age and Disability Levels at Baseline For
All Progressive Multiple Sclerosis Subtypes –
– Clinical Signal Shown for Vidofludimus
Calcium on Post COVID Fatigue May Be Related to Epstein-Barr Virus
Reactivation; Preventing This Reactivation May Contribute to
Fatigue Reduction in Multiple Sclerosis Patients
–
– Preclinical Data Showed Improved Neuronal
Survival, Likely Driven by Vidofludimus Calcium's Induction
of Nurr1 Activation, as Demonstrated by Primary Target Gene
Regulation –
– In Preclinical Experiments,
Vidofludimus Calcium Reduced or Prevented Development of
Pathogenic Peripheral T Helper Cells, Which Could be One of
the Treatment Pathways in Multiple Sclerosis –
NEW
YORK, Sept. 18, 2024 /PRNewswire/
-- Immunic, Inc. (Nasdaq: IMUX), a
biotechnology company developing a clinical pipeline of orally
administered, small molecule therapies for chronic inflammatory and
autoimmune diseases, today announced the presentation of key data
at the 40th Congress of the European Committee for Treatment and
Research in Multiple Sclerosis (ECTRIMS), highlighting Immunic's
lead asset, nuclear receptor related 1 (Nurr1) activator,
vidofludimus calcium's (IMU-838) therapeutic potential in multiple
sclerosis (MS). The data will be presented in an oral poster
presentation and three ePosters at this conference, being held
September 18-20, 2024, in
Copenhagen, Denmark. Additionally,
members of Immunic will be available throughout the event at booth
#60.
"Having four poster presentations on our lead asset,
vidofludimus calcium, at the prestigious ECTRIMS Congress,
illustrates the strength of the data generated for our drug
candidate, to date, and its potential to become a new treatment
option for MS," stated Daniel Vitt,
Ph.D., Chief Executive Officer of Immunic. "We are particularly
excited to have the opportunity to present data on various aspects
of vidofludimus calcium's profile, including the neurofilament
light chain (NfL) interim data from our phase 2 CALLIPER trial,
antiviral data suggesting an effect on reducing fatigue, Nurr1
target data supporting a neuroprotective profile, and pathogenic T
cell data further supporting the drug's anti-inflammatory
effects."
Dr. Vitt added, "As previously reported, in the interim analysis
of our CALLIPER trial, we observed a clear separation from placebo
in serum NfL levels among all patients with progressive multiple
sclerosis (PMS) as well as its subtypes. These observations support
the potential effectiveness of vidofludimus calcium in slowing
disease progression in PMS and further substantiate its
neuroprotective capabilities through the activation of Nurr1. Our
next major data readout for this asset is the CALLIPER top-line
data, which we expect to release in April of next year. We believe
that, if the CALLIPER trial is successful in showing a beneficial
effect of vidofludimus calcium, this data, along with that from the
ENSURE program and vidofludimus calcium's already established,
strong safety and tolerability profile, may allow for a meaningful
clinical differentiation of vidofludimus calcium compared to other
MS medications, providing potentially attractive commercial
positioning."
Dr. Vitt continued, "Fatigue is one of the most common and most
debilitating symptoms for both post-Covid Syndrome (PCS) and MS.
Third-party research has recognized Epstein-Barr virus (EBV)
reactivation as a potential cause for PCS fatigue. Notably, data
has demonstrated not only vidofludimus calcium's antiviral effects,
but also its potential ability to prevent reactivation of EBV. We
aim to confirm vidofludimus calcium's potential to reduce fatigue
in MS patients in our ongoing CALLIPER and phase 3 ENSURE trials
and in the recently initiated investigator-sponsored phase 2
RAPID_REVIVE trial in PCS patients. Additionally, results from an
animal model suggest that vidofludimus calcium reduces or prevents
the development of pathogenic peripheral T helper cells. Besides
its effect on pathogenic immune cells, preclinical evidence further
suggests a neuroprotective role of vidofludimus calcium via
activation of Nurr1. Preclinical data support Nurr1-driven direct
neuroprotective effects by vidofludimus calcium enhancing neuronal
survival and indirect effects by reducing neurotoxic activation of
microglia cells. The combination of neuroprotective and
anti-inflammatory effects of vidofludimus calcium represents a
potential beneficial profile for effective treatment of MS."
Oral Poster Presentation:
- Title: Serum Neurofilament Changes in Progressive MS:
Exploring the Impact of Vidofludimus Calcium by Age and Disability
in the CALLIPER Study Interim Analysis
- Presenting Author: Robert J.
Fox, M.D., Staff Neurologist, Mellen Center for Multiple
Sclerosis, Vice-Chair for Research, Neurological Institute,
Cleveland Clinic, Cleveland,
Ohio
- Poster Number: P753
- Session Title: Poster Session 2
- Date: Thursday, September 19,
2024
- Time: 4:45 pm –
6:45 pm CEST
In the phase 2 CALLIPER trial interim analysis of 203 patients,
serum NfL levels were reduced by 22.4% (p=0.01, post hoc) after 24
weeks of vidofludimus calcium treatment compared to placebo, with
consistent treatment effects across each progressive MS subtype,
including primary progressive MS as well as active and non-active
secondary progressive MS. The vidofludimus calcium group showed a
10% decrease in NfL versus a 20% increase for placebo among those
with an Expanded Disability Status Scale (EDSS) score ≤ 5.5; and a
2% decrease for vidofludimus calcium versus a 12% increase for
placebo among those with an EDSS score >5.5. Similarly, among
patients aged ≤ 45 years, the reduction was 11.6% for vidofludimus
calcium versus a 15% increase for placebo, while for those aged
> 55 years, it was a 10% decrease versus a 13% increase,
respectively. The data suggest that vidofludimus calcium treatment
consistently reduces NfL levels compared to placebo across
different patient subgroups based on age and disability scores at
baseline.
ePosters:
- Title: Exploring the Potential of Vidofludimus
Calcium to Reduce Fatigue in Multiple Sclerosis by Preventing
Epstein-Barr Virus Reactivation
- ePoster Number: P1119
Analysis of the antiviral activity of vidofludimus calcium in
vitro revealed a dose-dependent reduction of lytic EBV
reactivation in B cells and an anti-EBV effect in epithelial cells.
Results of a post-hoc analysis of PCS symptoms in the phase 2
CALVID-1 trial indicated a potential contribution of vidofludimus
calcium to the prevention of long-term fatigue. 80% of patients who
received placebo reported fatigue compared to 50% who received 45
mg vidofludimus calcium. Fatigue decreased in both treatment groups
in the next 9-17 weeks to 33% for placebo and 17% for vidofludimus
calcium. A clinical signal for vidofludimus calcium on PCS fatigue
was observed which might be related to EBV reactivation. By
preventing this reactivation, vidofludimus calcium may contribute
to fatigue reduction in MS patients as well. This hypothesis will
be further assessed by determining effects on fatigue using patient
questionnaires as well as analyses of the anti-EBV effect in the
ongoing CALLIPER, ENSURE, and RAPID_REVIVE clinical trials.
- Title: Vidofludimus Calcium Activity on Nurr1 in
Preclinical Models: A Potential Neuroprotective Function in
Multiple Sclerosis
- ePoster Number: P1410
Vidofludimus calcium enhanced the expression of Nurr1 target
genes important for neuronal survival, such as brain derived
neurotrophic factor (BDNF) and superoxide dismutase 1 (SOD1), in a
rat neuronal cell line. Additionally, it upregulated key Nurr1
target genes, such as tyrosine hydroxylase (TH) and vesicular
monoamine transporter 2 (VMAT2), in human microglial and murine
neuronal cell lines, which could contribute to neuronal protection.
Vidofludimus calcium protected neurons under pro-apoptotic
conditions, reduced gene expression of IL-6, TNFa and IFNg in human
microglia stimulated with lipopolysaccharide (LPS), and increased
BDNF levels in human peripheral blood mononuclear cells (PBMCs)
stimulated with LPS. Vidofludimus calcium effectively attenuated
disease severity in an experimental autoimmune encephalomyelitis
(EAE) model. Treatment with vidofludimus calcium led to reduced
immune cell infiltration, including decreased numbers of pathogenic
T cells producing IL-17A, GM-CSF, and IFNγ. Preliminary data showed
that mice receiving vidofludimus calcium exhibit elevated levels of
BDNF in the blood and enhanced expression of Nurr1 and its target
gene TH in the central nervous system.
- Title: Vidofludimus Calcium Shows T Helper Cell
Modulatory Effects in Murine Experimental Autoimmune
Encephalomyelitis: One of the Potential Mode of Action Pathways for
MS Treatment
- ePoster Number: P1390
Vidofludimus calcium given prophylactically reduced disease
severity and prevented disease development (63% and 15% symptom
free in vidofludimus calcium and vehicle, respectively). This was
reflected in the strong reduction of infiltrating T helper (Th)
cells in the spinal cord as well as reduced numbers of
proinflammatory Th cells in the periphery (draining lymph nodes,
dLN). Vidofludimus calcium treatment, given after symptom onset,
reduced disease progression compared to vehicle. This was supported
by lower numbers of infiltrating proinflammatory Th cells into the
spinal cord, while no significant difference was seen in the
periphery compared to vehicle. The effect of vidofludimus calcium
was assessed on myelin oligodendrocyte glycoprotein (MOG)
antigen-specific Th cells (2D2) on day 7 after disease induction.
Although vidofludimus calcium seems to increase MOG-specific
follicular T helper (Tfh) cells in the periphery (dLN), the
progression to develop into pathogenic Th cells was inhibited and
the development of regulatory T cells was increased. Overall,
vidofludimus calcium reduces or prevents development of pathogenic
peripheral Th cells.
All poster presentations will be accessible on the "Events and
Presentations" section of Immunic's website at:
https://ir.imux.com/events-and-presentations.
About Vidofludimus Calcium (IMU-838)
Vidofludimus
calcium is a small molecule investigational drug in development as
an oral next-generation treatment option for patients with multiple
sclerosis and other chronic inflammatory and autoimmune diseases.
The selective immune modulator activates the neuroprotective
transcription factor nuclear receptor related 1 (Nurr1), which is
associated with direct neuroprotective properties. Additionally,
vidofludimus calcium is a known inhibitor of the enzyme
dihydroorotate dehydrogenase (DHODH), which is a key enzyme in the
metabolism of overactive immune cells and virus-infected cells.
This mechanism is associated with the anti-inflammatory and
anti-viral effects of vidofludimus calcium. Vidofludimus calcium
has been observed to selectively act on hyperactive T and B cells
while leaving other immune cells largely unaffected and enabling
normal immune system function, e.g., in fighting infections. To
date, vidofludimus calcium has been tested in more than 1,800
individuals and has shown an attractive pharmacokinetic, safety and
tolerability profile. Vidofludimus calcium is not yet licensed or
approved in any country.
About Immunic, Inc.
Immunic, Inc. (Nasdaq: IMUX) is a biotechnology company developing
a clinical pipeline of orally administered, small molecule
therapies for chronic inflammatory and autoimmune diseases. The
company's lead development program, vidofludimus calcium (IMU-838),
is currently in phase 3 and phase 2 clinical trials for the
treatment of relapsing and progressive multiple sclerosis,
respectively, and has shown therapeutic activity in phase 2
clinical trials in patients suffering from relapsing-remitting
multiple sclerosis, progressive multiple sclerosis and
moderate-to-severe ulcerative colitis. Vidofludimus calcium
combines neuroprotective effects, through its mechanism as a
first-in-class nuclear receptor related 1 (Nurr1) activator, with
additional anti-inflammatory and anti-viral effects, by selectively
inhibiting the enzyme dihydroorotate dehydrogenase (DHODH).
IMU-856, which targets the protein Sirtuin 6 (SIRT6), is intended
to restore intestinal barrier function and regenerate bowel
epithelium, which could potentially be applicable in numerous
gastrointestinal diseases, such as celiac disease, for which it is
currently in preparations for a phase 2 clinical trial. IMU-381,
which currently is in preclinical testing, is a next generation
molecule being developed to specifically address the needs of
gastrointestinal diseases. For further information, please visit:
www.imux.com.
Cautionary Statement Regarding Forward-Looking
Statements
This press release contains "forward-looking statements" that
involve substantial risks and uncertainties for purposes of the
safe harbor provided by the Private Securities Litigation Reform
Act of 1995. All statements, other than statements of historical
facts, included in this press release regarding strategy, future
operations, future financial position, future revenue, projected
expenses, sufficiency of cash and cash runway, expected timing,
development and results of clinical trials, prospects, plans and
objectives of management are forward-looking statements. Examples
of such statements include, but are not limited to, statements
relating to Immunic's development programs and the targeted
diseases; the potential for vidofludimus calcium to safely and
effectively target diseases; preclinical and clinical data for
vidofludimus calcium; the timing of current and future clinical
trials and anticipated clinical milestones; the nature, strategy
and focus of the company and further updates with respect thereto;
and the development and commercial potential of any product
candidates of the company. Immunic may not actually achieve the
plans, carry out the intentions or meet the expectations or
projections disclosed in the forward-looking statements and you
should not place undue reliance on these forward-looking
statements. Such statements are based on management's current
expectations and involve substantial risks and uncertainties.
Actual results and performance could differ materially from those
projected in the forward-looking statements as a result of many
factors, including, without limitation, the COVID-19 pandemic,
increasing inflation, impacts of the Ukraine – Russia conflict and the conflict in the
Middle East on planned and ongoing
clinical trials, risks and uncertainties associated with the
ability to project future cash utilization and reserves needed for
contingent future liabilities and business operations, the
availability of sufficient financial and other resources to meet
business objectives and operational requirements, the fact that the
results of earlier preclinical studies and clinical trials may not
be predictive of future clinical trial results, the protection and
market exclusivity provided by Immunic's intellectual property,
risks related to the drug development and the regulatory approval
process and the impact of competitive products and technological
changes. A further list and descriptions of these risks,
uncertainties and other factors can be found in the section
captioned "Risk Factors," in the company's Annual Report on Form
10-K for the fiscal year ended December 31,
2023, filed with the SEC on February
22, 2024, and in the company's subsequent filings with the
Securities and Exchange Commission. Copies of these filings are
available online at www.sec.gov or ir.imux.com/sec-filings. Any
forward-looking statement made in this release speaks only as of
the date of this release. Immunic disclaims any intent or
obligation to update these forward-looking statements to reflect
events or circumstances that exist after the date on which they
were made. Immunic expressly disclaims all liability in respect to
actions taken or not taken based on any or all the contents of this
press release.
Contact Information
Immunic, Inc.
Jessica Breu
Vice President Investor Relations and Communications
+49 89 2080 477 09
jessica.breu@imux.com
US IR Contact
Rx Communications Group
Paula Schwartz
+1 917 633 7790
immunic@rxir.com
US Media Contact
KCSA Strategic Communications
Caitlin Kasunich
+1 212 896 1241
ckasunich@ksca.com
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