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Mersana Therapeutics Presents Preclinical Data Highlighting Potential of XMT-2056 and XMT-1660 in Three Posters at Virtual 2021 AACR Annual Meeting - Seite 3
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0 KommentarePoster Number: 1773
Session Category: Immunology
Session Title: Innate Immunity to Tumors
STING pathway agonism induces anti-tumor immunity by upregulating a Type I interferon response within the tumor microenvironment. While systemically or intra-tumorally administered free STING agonists are currently being evaluated in the clinic, these data suggest that a STING-agonist ADC, in which the STING agonist is conjugated to an antibody directed to a tumor antigen, can overcome the limitations of the current therapeutic approaches.
- In vitro studies show that while most cancer cell lines do not respond to STING agonism in standard monoculture conditions, Immunosynthen STING-agonist ADCs do activate STING in the same cancer cells in the presence of immune cell-conditioned media, suggesting that the tumor cell-intrinsic STING pathway can be activated in the presence of cues from immune cells.
- Nanostring analysis of human tumor xenografts reveal tumor cell specific induction of type III interferons (IFNs) by tumor cell-targeting Immunosynthen STING-agonist ADCs. In vitro studies confirmed the Type III interferon induction at the mRNA and cytokine level. Type III interferon production was markedly reduced in STING knock out cancer cell and immune cell co-cultures, suggesting that the tumor intrinsic STING activation is required for a robust Type III interferon induction in response to STING agonism. In addition, these data show that blocking Type III IFNs with neutralizing antibodies in cancer cell:immune cell co-cultures inhibits the production of key cytokines and cancer cell killing induced by STING-agonist ADC treatment, pointing to a potentially important role for Type III IFNs in anti-tumor immune responses downstream of STING pathway activation in tumor cells.
- Together these data demonstrate that tumor cell intrinsic STING activation leads to a robust type III interferon induction, which contributes to the anti-tumor
activity of tumor cell-targeted STING-agonist ADCs. This study supports the further development of Immunosynthen STING-agonist ADC candidates.
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About Mersana Therapeutics
Mersana Therapeutics is a clinical-stage biopharmaceutical company using its differentiated and proprietary ADC platforms to rapidly develop novel ADCs with optimal efficacy, safety and
tolerability to meaningfully improve the lives of people fighting cancer. Mersana’s lead product candidate, upifitamab rilsodotin (UpRi), is a Dolaflexin ADC targeting NaPi2b and is being studied
in UPLIFT, a single-arm registration strategy, in patients with platinum-resistant ovarian cancer as well as the expansion portion of a Phase 1 proof-of-concept clinical study in patients with
NSCLC adenocarcinoma. XMT-1592, Mersana’s second ADC product candidate targeting NaPi2b-expressing tumors, was created using Mersana’s customizable and homogeneous Dolasynthen platform and is in
the dose escalation portion of a Phase 1 proof-of-concept clinical study. The Company’s early-stage programs include XMT-1660, a Dolasynthen ADC targeting B7-H4, as well as XMT-2056, a
STING-agonist ADC developed using the Company’s Immunosynthen platform. In addition, multiple partners are using Mersana’s Dolaflexin platform to advance their ADC pipelines.
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