2539 Background: Although interleukin (IL)-12 demonstrated strong preclinical antitumor activity and potent immune-stimulating potentials clinically, systemic administration of IL-12 protein was associated with poor clinical safety profiles. IL-12 functions locally through paracrine and autocrine mechanisms, thus maximizing local concentration of IL-12 in the tumors is important. JCXH-211 is a self-replicating ribonucleic acid (srRNA) encoding human IL-12 encapsulated in lipid nanoparticles. Intratumoral (IT) administration of JCXH-211 is expected to produce the desired spatiotemporal distribution of IL-12 in the cancer lesions. srRNA features enhanced translatability in immunosuppressed tumor microenvironment (TME) than in normal tissues further limiting off-target toxicity. Additionally, the self-replicating nature of JCXH-211 engages multiple immune effector mechanisms and helps inflame TME. We present interim results of the dose escalation part of JCXH-211 IT injection as monotherapy in patients (pts) with malignant solid tumors. Enrollment for the 100 μg cohort is ongoing and updated data will be presented at the meeting. Methods: Pts with advanced solid tumors suitable for IT injection are enrolled. JCXH-211 at 5, 25, 50, and 100 μg are given every 4 weeks (Q4W). Dose Limiting Toxicities (DLT) are monitored for 28 days after 1st dose. Dose escalation follows “3+3” principle. Tumor assessment is performed Q6W using RECIST v1.1. Results: Ten pts with advanced cancers have been enrolled in 5 μg, 25 μg, and 50 μg cohorts: 3 melanoma (MEL), 3 breast cancer (BC), 2 head and neck cancer (HNSC), 1 nasopharyngeal cancer and 1 sarcoma. Nine pts completed DLT observation without DLT; 1 pt withdrew early. No drug-related SAE was reported. Most drug-related AEs were Grade 1/2 and recovered quickly. Only 1 pt in the 25 μg cohort reported 3 Grade 3 AEs possibly related to drug: lymphocytopenia (2 events) and anemia. Seven pts completed at least one post-dose tumor assessment. Three pts experienced shrinkages of the treated lesions by 13.0%, 33.3% and 43.0%, corresponding to BC, HNSC and MEL in the 5 μg, 25 μg, and 50 μg cohorts, respectively. Tumor shrinkage of 31% was also observed in a non-injected lesion of an HNSC pt receiving 25μg JCXH-211 suggesting abscopal effects. Histopathological analysis of the treated lesions demonstrated increased T and NK cell infiltration (as high as 138 folds) post study drug administration. Conclusions: JCXH-211 IT administration with doses of 5μg, 25μg, 50μg Q4W demonstrated good safety profile. Antitumor activities were observed in the heavily pretreated late-stage pts. Significant increases of T and NK cell infiltration were observed. These data support continued evaluation of JCXH-211 IT. Clinical trial information: NCT05727839 .