SQZ Biotechnologies Presents Cell Squeeze® Manufacturing Platform, Linked Antigen mRNA Preclinical Research, and COMMANDER-001 Phase 1/2 Clinical Trial in Progress Poster at Society for Immunotherapy of Cancer Annual Meeting
SQZ Biotechnologies presented preclinical research showcasing its Cell Squeeze® technology at the Society for Immunotherapy of Cancer (SITC) meeting. The technology aims to effectively engineer diverse cell types for therapeutic applications, potentially reducing manufacturing times and costs. Notably, the COMMANDER-001 Phase 1/2 trial, involving SQZ-eAPC-HPV for HPV16+ tumors, was highlighted, emphasizing its ability to expand eligible patient populations by 2-3 times. The ability to create multiantigen-specific responses through linked antigen mRNA constructs was also discussed, offering personalized cancer therapy potential.
- Presentation of preclinical research at SITC demonstrates the effectiveness of Cell Squeeze® technology for diverse cell types, including HSCs and iPSCs.
- Accelerated production timelines under 24 hours and elimination of preconditioning requirements enhances patient accessibility.
- COMMANDER-001 trial shows potential for broadening the patient population by 2-3 times due to lack of HLA restrictions.
- None.
Cell Squeeze® Platform Offers Advantages for GMP Engineering of Multiple Cell Types and Reduced Manufacturing Time and Cost through its Point-of-Care System
mRNA Constructs Encoding Multiple Linked Antigens Could Allow for a Multiantigen-Specific CD8+ T Cell Response
SQZ® eAPCs Contain Five mRNAs Encoding for Proteins Stimulating the Key T Cell Activation Signals to Potentially Mount Potent Immune Response Against Tumors
“Our presentation at SITC demonstrates the broad potential of our Cell Squeeze® technology to reliably deliver materials into cells without disrupting cell function, reduce manufacturing times, improve the safety of cell therapies, and support the creation of new therapies,” said
The company will also present a COMMANDER-001 Phase 1/2 Trial in Progress poster demonstrating how its Enhanced Antigen Presenting Cell (eAPC) therapeutic candidate is designed to leverage the delivery of five mRNAs encoding for proteins stimulating the key T cell activation signals required to generate an immune response against tumors, including membrane-bound IL-2 and IL-12. By presenting all three canonical signals, the eAPC approach can potentially amplify the T cell response. Additionally, the ability to deliver E6 and E7 mRNA encoding full-length proteins to eAPCs removes the HLA restriction for trial screening, increasing the addressable patient population by two-to-three times when compared to the company’s Antigen Presenting Cell (APC) program.
Lastly, the company will present preclinical research outlining a potential new therapeutic approach linking multiple antigens together to create a single mRNA and delivering it into eAPCs to generate a personalized neoantigen medicine for mutations like the KRAS mutation.
“One of the latest examples of our platform’s potential is its capability to deliver multiple linked antigens to eAPCs, which could potentially be used to develop bespoke vaccines for patients based on their cancer’s specific mutations or vaccines for a larger set of patients with a shared mutation such as KRAS,” said
Major Findings from Research:
Poster #224: Generation of Cell Therapies for Diverse Applications Using Microfluidic Cell Squeeze® Manufacturing Technology
Date:
- The Cell Squeeze® system can be leveraged to engineer a diverse set of cell types, including HSCs and iPSCs, and potentially allows for improved product quality and manufacturing cost relative to other common cell therapy approaches. Advantages include limited required rest time after the engineering step, faster proliferation, and fewer operator hours needed
- Transient engineering of a broad set of cell types with membrane-bound cytokines could lead to new therapeutic approaches for cell therapy. Preclinically, we show the ability to potentially improve safety by eliminating cytokine support as well as increase the frequency of a desirable cell phenotype
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SQZ® Point-of-Care (POC) system enables more cell engineering possibilities while demonstrating a >
90% reduction in operator hours with total process time under six hours. The POC system also offers the potential to eliminate the need for an ISO 7 clean room
Poster #321: Single mRNA Constructs Encoding Multiple Linked Antigens Allow for a Multiantigen-Specific CD8+ T Cell Response Driven by SQZ® eAPCs
Date:
- Using Cell Squeeze® technology, investigators successfully generated SQZ® eAPCs with mRNA encoding for up to 10 linked antigen fragments, including E6, E7, KRAS G12V, and KRAS G12D
- SQZ® eAPCs engineered with linked antigen mRNA constructs containing KRAS antigens drove KRAS-specific T cell responses in vitro, suggesting a potential model for a personalized neoantigen medicine for KRAS mutations
- mRNA constructs encoding multiple linked antigens drove increased CD8+ T cell response, further enhancing the versatility of the Cell Squeeze® technology to potentially target multiple tumor-associated neoantigens in a single mRNA construct
Poster #638: COMMANDER-001: A Phase 1/2, First-in-Human, Multicenter, Open Label Study of SQZ-eAPC-HPV as Monotherapy and with Pembrolizumab in Patients with HPV16+ Recurrent, Locally Advanced, or Metastatic Solid Tumors (Trial in Progress)
Date:
- SQZ-eAPC-HPV is an enhanced SQZ® clinical therapeutic candidate with no HLA restrictions, which increases the eligible patient population by 2-3 times compared to the company’s SQZ-PBMC-HPV clinical candidate
- SQZ® Enhanced Antigen Presenting Cells (eAPCs) are engineered by using the Cell Squeeze® technology to simultaneously deliver five mRNAs encoding for full-length HPV16 E6 and E7 proteins (signal 1), CD86 (signal 2), and membrane-bound (mb) IL-2 and mbIL-12 cytokines (signal 3)
- Eligible patients undergo a single leukapheresis, from which all doses have been manufactured in under 24 hours. Patients do not require a preconditioning regimen prior to receiving the therapeutic candidate
About SQZ-eAPC-HPV
SQZ® Enhanced Antigen Presenting Cells (eAPC) are derived from peripheral blood mononuclear cells (PBMCs), which are primarily composed of monocytes, T cells, B cells, and NK cells, and engineered with various mRNA encoding for multiple target antigens and immuno-stimulatory signals, including CD86 and membrane-bound IL-2 and IL-12. The company has presented preclinical findings showing that SQZ® eAPCs have generated robust T cell responses in human in vitro and in vivo models. Additionally, it was demonstrated that HPV16-encoding mRNA delivery to PBMCs stimulated CD8+ T cells across a range of HLA haplotypes, supporting eAPC clinical development in broader HPV16+ patient populations.
COMMANDER-001 Trial Design
SQZ-eAPC-HPV is being evaluated in a Phase 1/2 clinical trial (COMMANDER-001) for the treatment of HPV16+ advanced or metastatic solid tumors. The clinical candidate, which targets E6 and E7 oncoproteins, is being studied as a monotherapy and in combination with pembrolizumab, an immune checkpoint inhibitor. The study consists of two parts. The first part is designed to assess safety and tolerability of multiple doses of SQZ-eAPC-HPV in treatment-experienced patients, following a dose-escalation scheme for monotherapy, and a dose de-escalation for the combination with pembrolizumab. The second part of the study will assess clinical response of SQZ-eAPC-HPV in combination with pembrolizumab in immune checkpoint inhibitor treatment-naïve patient populations.
About Human Papillomavirus Positive Cancers
Human papillomavirus (HPV) is one of the most common viruses worldwide and certain strains persist for many years, often leading to cancer. According to the
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