This was a massive effort led by Lyla Stanland and Hayden Huggins. Grateful to the hard work of my lab and excellent collaborators Justin Milner, Martin Egli and Albert Bowers. Thanks so much to the reviewers who truly made the paper more robust and challenged us to go in new directions.
(11/11)
26.06.2025 17:08 β π 1 π 0 π¬ 0 π 0
Because complete inhibition of mutant KRAS is challenging, we evaluated if dual KRAS blockade with EFTX-G12V (RNAi) and allosteric inhibition (RMC-7977) could improve MAPK inhibition. We found an additive or synergistic effect in several KRAS mutant lines and near complete pERK inhibition.
(10/11)
26.06.2025 17:08 β π 1 π 0 π¬ 1 π 0
Using a syngeneic model from Mariano Barbacidβs lab, we observed EFTX-G12V phenocopies anti-tumor effects of tamoxifen-inducible KRAS G12V flox. Consistent w KRAS small molecule inhibitors, we observed highly significant and rapid increases of CD8+ T-cells and many granzyme B+ lymphocytes.
(9/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
In a KRAS G12V colon model, we observed that prolonged EFTX-G12V treatment led to pEGFR feedback activation, which was largely mitigated by the addition of an anti-EGFR antibody. This indicates the GE11-mediated receptor uptake mechanism for siRNA delivery is compatible with an EGFR Ab.
(8/11)
26.06.2025 17:08 β π 1 π 0 π¬ 1 π 0
We found less pEGFR reactivation in colon cancer models with EFTX-G12V, whereas pan-KRAS targeting had robust pEGFR reactivation + increases in tEGFR. We observed decreased pYAP S127 with EFTX-G12V, consistent with YAP-TEAD activation as a likely resistance pathway that emerges.
(7/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
RNAseq demonstrated mutant-selective silencing results in deep suppression of many cancer hallmarks, and tumor angiogenesis as uniquely suppressed by mutant selective Rx. We observed significant inhibition of microvessel density with EFTX-G12V, and inconsistent effects with pan-KRAS Rx.
(6/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
EFTX-G12V had significant anti-tumor activity in lung, colon + pancreatic cancer models.
Compared with a more potent pan-KRAS siRNA molecule based on in vitro activity, EFTX-G12V unexpectedly outperformed pan-KRAS inhibition in vivo, prompting us to investigate whether differences exist.
(5/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
The GE11C-targeting EFTX-G12V siRNA = EFTX-G12V, an EGFR-directed KRAS G12V selective RNAi molecule
Pharmacodynamics demonstrated a single dose of EFTX-G12V resulted in ~80-90% KRAS mRNA + protein silencing in the tumor. We observed minimal to no KRAS WT silencing in those tissues.
(4/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
For delivery, recent scRNAseq profiling suggested EGFR is a very differentially expressed cancer receptor. GE11 peptide, a EGFR binding peptide without mitogenic activity, covalently linked to siRs could result in receptor-mediated endocytosis and a high efficiency of cancer cell delivery.
(3/11)
26.06.2025 17:08 β π 0 π 0 π¬ 1 π 0
To create a KRAS G12V mutant selective siRNA, we utilized sequence optimization and leveraged steric properties of 2OMe modifications to create EFTX-G12V V4 Hi2OMe. Thermodynamics, Ago2 modeling, RNAseq + using isogenic lines confirmed mutant selective KRAS G12V inhibitor + spares KRAS WT.
(2/11)
26.06.2025 17:08 β π 1 π 0 π¬ 1 π 0
Now in @Cancer_Cell our group reports the development of a first-in-class EGFR-directed KRAS G12V selective inhibitor.
We address two major challenges with RNAi therapeutics in cancer:
1) Delivery, delivery, delivery
2) Achieving mutant selectivity
www.cell.com/cancer-cell/...
(1/11)
26.06.2025 17:08 β π 2 π 0 π¬ 1 π 0
Breast Medical Oncologist | Clinical Trialist and Researcher @UNC_Lineberger | Former @JCO_ASCO Editorial Fellow. Views are my own. πΊπΈπΈπΎ
North Carolina's only public comprehensive cancer center, serving patients at the N.C. Basnight Cancer Hospital. Today's best care. Tomorrow's best hope.
https://unclineberger.org/
Associate Professor | UNC Chapel Hill, Pharmacology Department | Lineberger Comprehensive Cancer Center | Research in Endocrinology, Epigenetics, & Wnt signaling| Views my own. https://www.med.unc.edu/pharm/pruittlab/team/
Bloomberg Distinguished Professor of Tumor Microenvironment. Johns Hopkins University School of Medicine.
The JCI is a premiere venue for discoveries in basic and clinical biomedical science that will advance the practice of medicine. Est. 1924
Associate Professor of Medicine/UNC Lineberger Comprehensive Cancer Center/ Clinical Trialist in AML & MDS. Love my NYG and UNC Tar Heels. Beach Lover. Views my own.
Director of Thoracic Oncology and Head of Developmental Therapeutics at Georgetown University Lombardi Comprehensive Cancer Center, co-Host of the IASLC Podcast
#LCSM #MedSky #OncSky #HereWeGo #Steelers #LetsGoBucs
Assistant prof at Stanford. Interested in aneuploidy, mitotic kinases, cancer therapeutics, and drug development. Co-founder x2.
Pancreatic cancer research lab focused on understanding PDAC metabolism to identify new therapies for patients.
The Metastasis Research Society (MRS) is dedicated to supporting progressive metastatic cancer research with the goal of improving treatments and patient lives.
http://www.metastasis-research.org
PIRL Co-PI (https://pirl.unc.edu/). Trying to figure out adaptive immunity to cancer, at least enough to develop better immunotherapies.
Cancer Evolution and Genome Instability Lab Francis Crick Institute. Views my own
Oncologist, Health Services Researcher, Proponent of Patient-Centered Care, Bass Player, Dad, Optimist
Breast cancer physician-scientist | Clinical computational oncology
@OSUCCC_James | Vice Chair, @Alliance_org Breast Cmte | Views own | http://u.osu.edu/StoverLab & https://u.osu.edu/bctrp
DNA damage response, Breast cancer, tumor immunology, precision oncology. @unclineberger, #mdphd #bcsm
Executive Editor of Cancer Discovery, published by AACR. Harvard BBS/Dana-Farber alum. Native New Yorker. Posts are my own. She/her https://aacrjournals.org/cancerdiscovery
