Background/Aims
Dysregulated cholesterol metabolism is a hallmark of hepatocellular carcinoma (HCC) that drives tumor initiation and progression. However, clinical targeting of cholesterol metabolism has yielded limited benefits due to stringent feedback in tumor cells. Identifying a central mediator capable of restoring cholesterol homeostasis within the cell’s intrinsically fine-tuned regulatory framework is urgently needed.
Methods
We integrated a proteomic dataset from patients with cholesterol-dysregulated HCC into a global cholesterol metabolic regulatory network to identify potential therapeutic targets for disrupted cholesterol homeostasis. The prognostic significance of the candidate targets was further validated in an independent cohort through immunohistochemistry. Functional and mechanistic studies were conducted in vitro using HCC cell lines and in vivo using mouse models. The pharmacological efficacy of the candidate agent was evaluated in both subcutaneous and orthotopic HCC mouse models.
Result s:
ERLIN1, a pivotal regulator of cholesterol metabolism reprogramming, was identified as an independent favorable prognostic indicator in HCC. ERLIN1 constrains HCC progression both in vitro and in vivo by stabilizing the INSIG1–SCAP–SREBP2 axis and maintaining the metabolic balance of intracellular cholesterol. Under hypoxia, impaired FIH-dependent hydroxylation of ASB11 at asparagine residues 90 and 92 enhances ASB11-mediated ERLIN1 degradation. Pharmacological targeting of this axis using zoledronic acid (ZoA) attenuated HCC progression by weakening the ASB11–ERLIN1 interaction and restoring cholesterol homeostasis.
Conclusions
ERLIN1 represents a druggable metabolic vulnerability in cholesterol-dysregulated HCC. Targeting the ASB11–ERLIN1 axis with the clinically approved ZoA reestablishes cholesterol homeostasis and offers a promising therapeutic strategy to overcome the current limitations of cholesterol-targeted HCC therapies.
Cholangiocarcinoma (CCA) is an epithelial cell cancer of the biliary tract. CCA can be further classified into intrahepatic cholangiocarcinoma (iCCA), perihilar cholangiocarcinoma (pCCA), and distal cholangiocarcinoma (dCCA) depending on the anatomical location. Until recently, the treatment for advanced CCA has remained highly reliant on chemotherapy, with gemcitabine plus cisplatin used in first-line treatment. Recent developments have led to the addition of immune checkpoint blockade (ICB) to the chemotherapy regimen, highlighting the promising potential of immunotherapies for CCA treatment. Despite these developments, most patients still do not benefit from current treatments, and response rates to ICB monotherapy remain modest. This underscores the need to develop more effective immunotherapeutic strategies. A major obstacle to this is the highly heterogenous nature of the disease. CCA tumors exhibit high inter-tumor heterogeneity in terms of anatomical locations, driver mutations, etiologies, and tumor microenvironment (TME) composition, making each patient immunologically distinct and difficult to benefit from a one-size-fits-all approach. There is a need to stratify patients according to individual disease status to identify immunotherapies and combination therapies that are most beneficial to them. Here we describe the different ways inter-tumor heterogeneity may arise in CCA, including stromal cell abundance, anatomical location, driver mutations, etiologies, TME profile, and tertiary lymphoid structure (TLS) presence. We also discuss what these factors mean to the immune microenvironment and their potential to be used as biomarkers. Careful stratification of patients is crucial in designing personalized medicine to improve survival outcomes and treatment efficacy for CCA patients.
Citations
Citations to this article as recorded by
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Xueshuai Wan, Karin Wisskirchen, Tao Jin, Lu Yang, Xiaorui Wang, Xiang’an Wu, Fang Liu, Yu Wu, Christy Ma, Yong Pang, Qi Li, Ke Zhang, Ulrike Protzer, Shunda Du
Clin Mol Hepatol 2024;30(4):735-755. Published online May 29, 2024
Background/Aims Hepatitis B virus (HBV)-DNA integration in HBV-related hepatocellular carcinoma (HBV-HCC) can be targeted by HBV-specific T cells. SCG101 is an autologous, HBV-specific T-cell product expressing a T-cell receptor (TCR) after lentiviral transduction recognizing the envelope-derived peptide (S20-28) on HLA-A2. We here validated its safety and efficacy preclinically and applied it to an HBV-related HCC patient (NCT05339321).
Methods Good Manufacturing Practice-grade manufactured cells were assessed for off-target reactivity and functionality against hepatoma cells. Subsequently, a patient with advanced HBV-HCC (Child-Pugh class A, Barcelona Clinic Liver Cancer stage B, Eastern Cooperative Oncology Group performance status 0, hepatitis B e antigen-, serum hepatitis B surface antigen [HBsAg]+, HBsAg+ hepatocytes 10%) received 7.9×107 cells/kg after lymphodepletion. Safety, T-cell persistence, and antiviral and antitumor efficacy were evaluated.
Result s: SCG101, produced at high numbers in a closed-bag system, showed HBV-specific functionality against HBV-HCC cells in vitro and in vivo. Clinically, treatment was well tolerated, and all adverse events, including transient hepatic damage, were reversible. On day 3, ALT levels increased to 1,404 U/L, and concurrently, serum HBsAg started decreasing by 3.84 log10 and remained <1 IU/mL for over six months. HBsAg-expressing hepatocytes in liver biopsies were undetectable after 73 days. The patient achieved a partial response according to modified RECIST with a >70% reduction in target lesion size. Transferred T cells expanded, developed a stem cell-like memory phenotype, and were still detectable after six months in the patient’s blood.
Conclusions SCG101 T-cell therapy showed encouraging efficacy and safety in preclinical models and in a patient with primary HBV-HCC and concomitant chronic hepatitis B with the capability to eliminate HBsAg+ cells and achieve sustained tumor control after single dosing.
Citations
Citations to this article as recorded by
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