Avacta Group plc
("Avacta" or "the Group" or "the Company")
Avacta Reports Pipeline Advances with Two
Novel Programs at the EORTC-NCI-AACR Molecular Targets Symposium in
Barcelona
LONDON – Oct. 24, 2024 – Avacta
Therapeutics (AIM: AVCT), a life sciences company
developing next generation peptide drug conjugates (PDC) targeting
powerful anti-tumor payloads directly to the tumor, today announces
scientific presentations of two novel programs in its pipeline at
the 2024 EORTC-NCI-AACR Symposium on Molecular Targets and Cancer
Therapeutics in Barcelona, Spain. The presentations include data
from two preclinical oncology assets, AVA6103 and AVA7100, from
Avacta’s pipeline of pre|CISION® product candidates.
Both presentations take place today in the
Antibody Drug Conjugate (ADC) poster session at the Symposium.
Avacta’s pre|CISION® product candidates are
designed to be activated specifically in the tumor microenvironment
(TME), thereby enabling improved antitumor activity while reducing
systemic toxicities. Each peptide drug conjugate (PDC) in the
Company’s pipeline is comprised of an active antitumor drug (known
as a payload) linked to the pre|CISION peptide, which renders the
payload inert and is cleaved only within the tumor by the action of
Fibroblast Activation Protein, or FAP, expressed in the cancer
associated fibroblasts in the TME. The pre|CISION® technology
addresses key limitations of ADCs, namely (1) non-specific payload
release that results in significant off target toxicities, and (2)
the complexity of the bystander effect, which is necessary to
target antigen-negative tumor cells and thus to treat antigen-low
populations. The pre|CISION platform addresses these limitations by
releasing payload only in the tumor microenvironment and optimizing
the bystander mechanism of action.
AVA6103 is a pre|CISION-enabled PDC comprised of
the pre|CISION peptide linked to exatecan, the most potent
topoisomerase I (topo I) inhibitor in clinical development. AVA7100
is a part of a new class of pre|CISION®-enabled Affimer® drug
conjugates with potential applications in multiple cancer types,
including those with lower levels of FAP in the tumor. AVA6103 and
AVA7100 are expected to enter IND-enabling studies in late 2024 and
2H 2025, respectively.
The details of these advances in the pre|CISION®
technology are presented below.
Christina Coughlin, MD PhD, CEO of
Avacta, commented: “We are encouraged by the preclinical
data from AVA6103 demonstrating that FAP-enabled exatecan induces
DNA damage and drives cancer cell death and we look forward to
advancing this promising therapy toward the clinic. The preliminary
data from AVA7100 demonstrating that exposure to Affimer® Drug
Conjugates (AffDCs) results in drug cleavage, release of the
payload and tumor cell kill as a bystander function are exciting
for this entirely new class of therapies.
“These presentations showcase the evolution of
our pre|CISION® platform technology to selectively deliver highly
potent payloads directly to the TME, while minimizing exposure in
normal tissues and optimizing patients’ outcomes. Our first
program, AVA6000, demonstrates a four- to six-fold increase in the
therapeutic index in the clinic and in preclinical models. With the
advances in the platform, we are now seeing a 75-fold increase in
therapeutic index with our recently announced exatecan program,
AVA6103 in preclinical models, suggesting that AVA6103 could have
an unprecedented safety profile in the clinic. Potent topoisomerase
I inhibitors are the payloads of ADC therapies in the clinic,
although the non-specific release of these payloads can lead to
severe off-target toxicities. Given the lack of these toxicities in
our first program and the broad reach of the topoisomerase I
inhibitor class, we see our next programs as having great potential
for true impact in patients with high unmet need.”
AVA6103 Results
In a poster titled “The novel peptide drug
conjugate AVA6103 is a FAP-enabled pre|CISION® medicine which
targets Topoisomerase I to the tumor microenvironment via FAP
cleavage” in vivo data were presented that demonstrate the ability
to target and accumulate the active warhead in the tumor
microenvironment, resulting in tumor growth inhibition with
AVA6103.
Specifically, the key findings from the poster
demonstrate:
- The therapeutic index of exatecan
is significantly increased by pre|CISION enabling,
specifically the maximum tolerated dose of pre|CISION exatecan
(AVA6103) observed is 75 times that of conventional exatecan in a
daily dosing regimen
- AVA6103 optimizes the bystander
effect where the conjugate is only cleaved by FAP-positive
fibroblasts, and released exatecan can enter FAP-negative cancer
cells
- High intratumoral warhead
concentrations are seen at 4hr and 24hr timepoints for several
pre|CISION exatecan compounds, with up to 50-fold higher warhead
concentrations in the tumor versus plasma in a patient-derived
xenograft model,
- AVA6103 inhibits tumor growth, with
complete responses noted in a preclinical treated model engineered
with human FAP expression (HEK-FAP) tumors. Increased survival was
also shown in this model treated with AVA6103 compared with other
models with vehicle-treated tumors.
AVA7100 Results
A poster titled “Affimer® Drug Conjugates
(AffDC) targeting Fibroblast Activation Protein-α deliver highly
toxic warheads to the tumor microenvironment by leveraging the
pre|CISION® release mechanism” include data demonstrating that
exposure of tumor cell line or fibroblast cell co-cultures to
AffDCs results in drug cleavage, release of the warhead and tumor
cell kill as a bystander function.
Specifically, the key findings from the poster
demonstrate:
- With non-internalizing Affimer
protein binding and extracellular warhead release by FAP, the AffDC
optimizes the bystander effect, leading to effective killing of
antigen-positive and antigen-negative tumor cells
- AffDCs have an antigen-binding
region of 14kDa (single-domain) or 28 kDa (two-domain) that is
10-20% of the size of an antibody, optimizing tumor penetration.
AffDCs may be rapidly engineered for optimal biophysical and
functional characteristics.
- The FAP AffDC molecules exhibit a
broad range of FAP binding (including potency up to single-digit
picomolar, pM) combined with highly tumor-specific warhead release
by leveraging the preCISION linker to release warhead directly in
the tumor microenvironment and target that delivery to tumors with
low FAP expression
For further information from Avacta
Group plc, please contact:
| Avacta Group
plcMichael Vinegrad, Group Communications Director |
https://avacta.com/ |
| Peel Hunt (Nomad and
Broker)James Steel / Chris Golden / Patrick Birkholm |
www.peelhunt.com |
| ICR Consilium
Mary-Jane Elliott / Jessica Hodgson / Sukaina Virji |
avacta@consilium-comms.com |
About the pre|CISION®
Platform
The pre|CISION® platform comprises an anticancer
payload conjugated to a proprietary peptide that is a highly
specific substrate for fibroblast activation protein (FAP) which is
upregulated in most solid tumors compared with healthy tissues. The
pre|CISION® platform harnesses this tumor specific protease to
cleave pre|CISION® peptide drug conjugates and pre|CISION®
antibody/Affimer® drug conjugates in the tumor
microenvironment, thus releasing active payload in the tumor and
reducing systemic exposure and toxicity, allowing dosing to be
optimized to deliver the best outcomes for patients.
About AVA6000: FAP-enabled
doxorubicin
The lead pre|CISION® program AVA6000, a peptide
drug conjugate form of doxorubicin, is in Phase 1 studies. It has
shown an improvement in safety and tolerability in clinical trials
to date compared with standard doxorubicin and preliminary signs of
clinical activity in multiple patients.To register for news alerts
by email go
to https://avacta.com/investors/investor-news-email-alerts/.
AVA6103: FAP-enabled PDC targeting Topoisomerase
I
AVA6103 is a pre|CISION-enabled PDC comprised of
the pre|CISION peptide linked to exatecan, the most potent
topoisomerase I inhibitor in clinical development. Exatecan has
demonstrated clinical activity in breast, gastric, lung and
pancreatic cancers; however, it is associated with severe
dose-limiting toxicities and a short half-life in patients that led
to discontinuation of its monotherapy development. AVA6103 is
designed to enable patients to obtain the therapeutic benefit
associated with exatecan, while limiting the systemic exposure
associated with its poor tolerability.
AVA7100: pre|CISION® FAP Affimer Drug
Conjugate (AffDC)
AVA7100 is a pre|CISION®-enabled Affimer® drug conjugate, a
new class of therapies being developed by Avacta with potential
applications in a variety of cancer types, including those with
lower levels of FAP in the tumor. Affimer® molecules are small
proteins that are engineered to bind to a target molecule in the
same way that an antibody does, but with several advantages,
including smaller molecule size and a broad range of binding
affinity. AVA7100 consists of a novel FAP-Affimer conjugated to a
pre|CISION-peptide linker with multiple options for the
payload.
About Avacta Group plc
- https://avacta.com/
Avacta Group is a UK-based life
sciences company focused on improving healthcare outcomes through
targeted cancer treatments and diagnostics. Its clinical stage
oncology biotech division Avacta Therapeutics is harnessing the
proprietary pre|CISION® platform technology to develop novel,
highly targeted cancer drugs. Avacta Diagnostics focuses on
supporting healthcare professionals and broadening access to
diagnostics. To register for news alerts by email go
to https://avacta.com/investors/investor-news-email-alerts/.
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