Background:β-catenin mutations are present in up to 40% of aHCC pts. Elevated nuclear β-catenin expression levels correlate with poor responses to standard of care and β-catenin regulates both tumor metabolism and the immune microenvironment. Tegavivint is a first-in-class small molecule inhibitor of TBL1, a novel downstream Wnt-signaling pathway target. Tegavivint binds to TBL1 in the β-catenin pocket, disrupting the formation of the activation complex necessary for oncogenic activity, and enabling degradation of free nuclear β-catenin. The safety, clinical activity, and PK/PD of tegavivint was demonstrated through a proof-of-concept study in pts with desmoid tumors and is being studied through multiple Investigator Initiated Trials in AML (NCT04874480), pediatric solid tumors (NCT04851119), NSCLC (NCT04780568), and lymphoma (NCT05755087). Tegavivint was also studied in preclinical mouse models of β-catenin^exon3 mutant HCC and the H22 syngeneic HCC model. In these models tegavivint decreased Wnt target gene expression and enhanced CD3+ T-cell infiltration in liver tumors. Tegavivint treatment of established β-catenin^exon3 activated tumors resulted in reduced tumor growth and burden. Based on these promising preclinical results, the following phase 1/2 exploratory study was designed. Methods: This is a phase 1/2 study of tegavivint in pts with aHCC to characterize safety, PK/PD, and preliminary antitumor activity (NCT05797805). Eligibility includes aHCC pts ≥18 years old, with AXIN1or CTNNB1 mutation for all pts, except those in the single agent dose escalation; have BCLC Stage C or Stage B disease not amendable to local therapy or curative approaches, have Child-Pugh class A or B7 liver score, and must have received at least one prior line of systemic therapy. This study will be conducted in 2 parts. First, tegavivint will be administered as a single agent in a dose escalation/optimization and subsequent dose expansion cohort. Upon completion of the dose escalation via a 3+3 design, two dose levels will be selected for the dose selection optimization to determine the recommended phase 2 dose (RP2D) for use in the dose expansion. If sufficient clinical benefit is observed, the combination of tegavivint plus pembrolizumab will be explored in the second part of the study in aHCC pts previously treated with a PD-1/PD-L1 inhibitor. Tegavivint will be administered intravenously weekly. Primary objective is safety and secondary objectives are preliminary efficacy and PK/PD. The first patient began treatment in October of 2023 and the first dose escalation cohort was completed in January. Three institutions are open for enrollment; 5 other sites are pending site activation; all sites are in the United States and Canada. Clinical trial information: NCT05797805.