CervoMed Announces Presentation of Biomarker Data from the AscenD-LB Phase 2a Trial and Preclinical Data Supporting Potential of Neflamapimod in Tau-Mediated Disease at AD/PD ™ 2024
March 05 2024 - 8:00AM
CervoMed Inc. (NASDAQ: CRVO), a clinical stage company focused on
developing treatments for degenerative diseases of the brain, today
announced the presentation of biomarker data from the AscenD-LB
Phase 2a trial of neflamapimod in patients with dementia with Lewy
bodies (DLB), demonstrating that neflamapimod reduces plasma levels
of glial fibrillary acidic protein (GFAP) compared placebo, and
that the effects of neflamapimod on GFAP were inversely correlated
to change in CDR-SB (reduction in GFAP associated with improvement
in CDR-SB, and increase in GFAP associated with worsening in
CDR-SB). These data will be featured in a poster presentation at
the 18th International Conference on Alzheimer’s and Parkinson’s
Diseases (AD/PD™) 2024, being held both virtually and in Lisbon,
Portugal from March 5–9, 2024. In addition, academic researchers
from UCL will be presenting data in a separate poster at the
meeting demonstrating that p38MAPK inhibition, including with
neflamapimod specifically, improves tau-induced axonal transport
defects both in vitro and in a tauopathy mouse model.
“The effects on GFAP, particularly the association between GFAP
response and clinical outcomes, further support that neflamapimod
is clinically efficacious in patients with DLB,” said John Alam,
MD, Chief Executive Officer of CervoMed. “The exciting data from
UCL are consistent with the mechanism of action of neflamapimod in
the treatment of dementia with Lewy bodies, where axonal transport
defects related to the microtubule-associated protein tau in basal
forebrain cholinergic neurons are an important pathogenic driver.
Moreover, their findings provide a strong scientific rationale for
evaluating neflamapimod as a treatment for certain forms of
frontotemporal dementia.”
Full abstracts are accessible on the conference portal, and
additional details are provided below. A PDF copy of the GFAP
poster presentation will be available on the “Presentations and
Publications” section of the CervoMed website.
Abstract #1095 (Neflamapimod reduces GFAP levels in patients
with DLB):
- Title: EFFECT OF
NEFLAMAPIMOD TREATMENT ON PLASMA GLIAL FIBRIALLARY ACIDIC PROTEIN
(GFAP) LEVELS IN PATIENTS WITH DEMENTIA WITH LEWY BODIES (DLB)
- Authors: John Alam,
Marleen Koel-Simmelink, Jennifer Conway, Amanda Gardner1, Kelly
Blackburn, Inge Verberk, Charlotte Teunissen
- Affiliations:
CervoMed Inc. (JA, JC, AG, KB); Amsterdam UMC location Vrije
Universiteit Amsterdam (MK-S, IV, CT), Department of Laboratory
Medicine, Neurochemistry Laboratory
Key Takeaways: The effects of neflamapimod on
plasma GFAP were evaluated in both the overall and pure DLB patient
population, and the treatment effects of GFAP correlated to
clinical outcomes:
- In the overall population, there was
a mean 3.7 pg/mL increase GFAP levels in placebo vs. mean 12.3
pg/mL reduction with neflamapimod (p=0.13 for difference).
- In pure DLB patients (i.e., patients
with pre-treatment plasma ptau181 below the cutoff for AD-related
co-pathology), there was a mean 14.1 pg/mL increase in placebo vs.
mean 10.6 pg/mL reduction with neflamapimod (p=0.04 for the
difference).
- In the pure DLB patient population,
in participants treated with neflamapimod there was a significant
correlation (r=0.542, p=0.036) between the effects of GFAP and
clinical outcomes assessed by change from baseline to week 16 in
CDR-SB, with increased GFAP being associated with worsening CDR-SB,
while reduction in GFAP was associated with improvement on CDR-SB.
The correlation was not seen in placebo-recipients (r=0.31,
p=NS).
Abstract #2438 (Neflamapimod enhances axonal transport in
tauopathy model)
- Title: IN VIVO
IMAGING OF AXONAL TRANSPORT REVEALS EARLY PATHOLOGICAL CHANGES
INDUCED BY TAU MUTATIONS AND THEIR REVERSIBILITY
- Authors: Edoardo
Moretto, Chiara Panzi, Skye Stuart, Anna Masato, Samantha De
La-Rocque, Emily Huff, Ian White, Jemima Burden, Giampietro
Schiavo
- Affiliations: UCL,
UK Dementia Research Institute (EM, CP, SS, AM, SDL-R, GS); CNR,
Institute of Neuroscience (EM), Vedano al Lambro (MB), Italy; UCL,
MRC Laboratory for Molecular Cell Biology (IW, JM); UCL, Queen
Square Motor Neuron Disease Centre (GS)
Key Takeaways: The effects of p38 MAPK
inhibition on FTD linked tau mutation induced axonal transport
defects were evaluated both in vitro and in vivo:
- FTD-linked mutations, known to
increase pathological phosphorylation and aggregation of tau,
induces aberrant tau envelopes (clusters) along axons, an effect
that was reversed by inhibition of p38 MAPK (a kinase known to
modulate tau hyperphosphorylation and the target of
neflamapimod).
- By using a new assay based on
two-photon microscopy on tauopathy mouse models, inhibition of p38
MAPK was able to partially rescue the defects in axonal transport
both in vitro and in vivo.
- Neflamapimod, administered twice
daily for 5 days at a dose of 3 mg/kg, was demonstrated to enhance
axonal transport in the rTg450 transgenic mouse model of FTD that
contains the P301L mutation in the tau gene.
- The authors conclude, “The evidence
that reducing tau phosphorylation by inhibiting p38 MAPK
potentiated axonal transport points towards inhibition of p38 MAPK
as a promising therapeutic strategy in tauopathies”.
Additionally, John Alam, MD, Chief Executive Officer of CervoMed
will participate in a panel discussion on recent developments that
are advancing the therapeutic landscape, specifically on the
development of biomarkers, imaging, and therapy of alpha-synuclein,
LRKK2, and GBA pathologies. Additional details are provided
below.
- Title: NEW INSIGHTS IN THE
DEVELOPMENT OF BIOMARKERS, IMAGING, AND THERAPY OF ALPHA-SYNUCLEIN,
LRKK2, AND GBA PATHOLOGIES
- Forum: 3
- Date and Time: Thursday, March 7,
2024, from 5:30-6:30pm CET
- Location: Auditorium I, Lisbon
Congress Centre (Centro de Congressos de Lisboa)
About CervoMedCervoMed is a clinical-stage
company focused on developing treatments for age-related neurologic
disorders. The company is currently developing neflamapimod, an
investigational orally administered small molecule brain penetrant
that inhibits p38MAP kinase alpha (p38a). Neflamapimod has the
potential to treat synaptic dysfunction, the reversible aspect of
the underlying neurodegenerative processes that cause disease in
DLB and certain other major neurological disorders. Neflamapimod is
currently being evaluated in a Phase 2b study in patients with
DLB.
Forward-Looking StatementsThis press release
includes express and implied forward-looking statements within the
meaning of the Private Securities Litigation Reform Act of 1995, as
amended, regarding the intentions, plans, beliefs, expectations or
forecasts for the future of CervoMed (or the Company), including,
but not limited to, the therapeutic potential of neflamapimod and
anticipated timing of clinical milestones. Terms such as
"believes," "estimates," "anticipates," "expects," "plans,"
"intends," "may," "could," "might," "will," "should,"
"approximately," "potential" or other words that convey uncertainty
of future events or outcomes may identify these forward-looking
statements. Although there is believed to be reasonable basis for
each forward-looking statement contained herein, forward-looking
statements by their nature involve risks and uncertainties, known
and unknown, many of which are beyond the Company's control and, as
a result, actual results could differ materially from those
expressed or implied in any forward-looking statement. Particular
risks and uncertainties include, among other things, those related
to: the Company's available cash resources and the availability of
additional funds on acceptable terms; the results of the Company’s
clinical trials; the likelihood and timing of any regulatory
approval of neflamapimod or the nature of any feedback the Company
may receive from the U.S. Food and Drug Administration; the
ability to implement business plans, forecasts, and other
expectations in the future; general economic, political, business,
industry, and market conditions, inflationary pressures, and
geopolitical conflicts; and the other factors discussed under the
heading "Risk Factors" in the Company's Quarterly Report on Form
10-Q for the three-month period ended September 30,
2023 filed with the U.S. Securities and Exchange
Commission (SEC) on November 13, 2023, and other filings
that the Company may file from time to time with the SEC. Any
forward-looking statements in this press release speak only as of
the date hereof (or such earlier date as may be identified). The
Company does not undertake any obligation to update such
forward-looking statements to reflect events or circumstances after
the date of this press release, except to the extent required by
law.
Investor Contact:PJ KelleherLifeSci
AdvisorsInvestors@cervomed.com617-430-7579
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