EASL Liver Cancer Summit 2025
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Task-sharing and telemedicine delivery of psychotherapy to treat perinatal depression: a pragmatic, noninferiority randomized trial
Task-sharing and telemedicine can increase access to effective psychotherapies. Scaling Up Maternal Mental healthcare by Increasing access to Treatment (SUMMIT) is pragmatic, multisite, noninferiority, four-arm trial that tested the non-inferiority of provider (non-specialist vs. specialist providers) and modality (telemedicine vs. in-person) in delivering psychotherapy for perinatal depressive symptoms. Across three university-affiliated networks in the United States and Canada, pregnant and postpartum adult participants were randomized 1:1:1:1 to each arm (472 nonspecialist telemedicine, 145 nonspecialist in-person, 469 specialist telemedicine and 144 specialist in-person) and offered weekly behavioral activation treatment sessions. The primary outcome was depressive symptoms (Edinburgh Postnatal Depression Scale (EPDS)) and the secondary outcome was anxiety (Generalized Anxiety Disorder (GAD-7)) symptoms at 3 months post-randomization. Between 8 January 2020 and 4 October 2023, 1,230 participants were recruited. Noninferiority was met for the primary outcome comparing provider (EPDS: nonspecialist 9.27 (95% CI 8.85–9.70) versus specialist 8.91 (95% CI 8.49–9.33)) and modality (EPDS: telemedicine 9.15 (95% CI 8.79–9.50) versus in-person 8.92 (95% CI 8.39–9.45)) for both intention-to-treat and per protocol analyses. Noninferiority was also met for anxiety symptoms in both comparisons. There were no serious or adverse events related to the trial. This trial suggests compelling evidence for task-sharing and telemedicine to improve access to psychotherapies for perinatal depressive and anxiety symptoms. ClinicalTrials.gov NCT04153864
Enhancer reprogramming: critical roles in cancer and promising therapeutic strategies
Transcriptional dysregulation is a hallmark of cancer initiation and progression, driven by genetic and epigenetic alterations. Enhancer reprogramming has emerged as a pivotal driver of carcinogenesis, with cancer cells often relying on aberrant transcriptional programs. The advent of high-throughput sequencing technologies has provided critical insights into enhancer reprogramming events and their role in malignancy. While targeting enhancers presents a promising therapeutic strategy, significant challenges remain. These include the off-target effects of enhancer-targeting technologies, the complexity and redundancy of enhancer networks, and the dynamic nature of enhancer reprogramming, which may contribute to therapeutic resistance. This review comprehensively encapsulates the structural attributes of enhancers, delineates the mechanisms underlying their dysregulation in malignant transformation, and evaluates the therapeutic opportunities and limitations associated with targeting enhancers in cancer.
AAV capsid prioritization in normal and steatotic human livers maintained by machine perfusion
Therapeutic efficacy and safety of adeno-associated virus (AAV) liver gene therapy depend on capsid choice. To predict AAV capsid performance under near-clinical conditions, we established side-by-side comparison at single-cell resolution in human livers maintained by normothermic machine perfusion. AAV-LK03 transduced hepatocytes much more efficiently and specifically than AAV5, AAV8 and AAV6, which are most commonly used clinically, and AAV-NP59, which is better at transducing human hepatocytes engrafted in immune-deficient mice. AAV-LK03 preferentially transduced periportal hepatocytes in normal liver, whereas AAV5 targeted pericentral hepatocytes in steatotic liver. AAV5 and AAV8 transduced liver sinusoidal endothelial cells as efficiently as hepatocytes. AAV capsid and steatosis influenced vector episome formation, which determines gene therapy durability, with AAV5 delaying concatemerization. Our findings inform capsid choice in clinical AAV liver gene therapy, including consideration of disease-relevant hepatocyte zonation and effects of steatosis, and facilitate the development of AAV capsids that transduce hepatocytes or other therapeutically relevant cell types in the human liver with maximum efficiency and specificity.
VDAC2 and Bak scarcity in liver mitochondria enables targeting hepatocarcinoma while sparing hepatocytes
Differences between normal tissues and invading tumors that allow tumor targeting while saving normal tissue are much sought after. Here we show that scarcity of VDAC2, and the consequent lack of Bak recruitment to mitochondria, renders hepatocyte mitochondria resistant to permeabilization by truncated Bid (tBid), a Bcl-2 Homology 3 (BH3)-only, Bcl-2 family protein. Increased VDAC2 and Bak is found in most human liver cancers and mitochondria from tumors and hepatic cancer cell lines exhibit VDAC2- and Bak-dependent tBid sensitivity. Exploring potential therapeutic targeting, we find that combinations of activators of the tBid pathway with inhibitors of the Bcl-2 family proteins that suppress Bak activation enhance VDAC2-dependent death of hepatocarcinoma cells with little effect on normal hepatocytes. Furthermore, in vivo, combination of S63845, a selective Mcl-1 inhibitor, with tumor-nectrosis factor-related, apoptosis-induncing ligand (TRAIL) peptide reduces tumor growth, but only in tumors expressing VDAC2. Thus, we describe mitochondrial molecular fingerprint that discriminates liver from hepatocarcinoma and allows sparing normal tissue while targeting tumors.
Incomplete elimination of viral genomes is associated with chronic inflammation in nonhuman primate livers after AAV-mediated gene transfer
The liver is a unique organ where immunity can be biased toward ineffective response notably in the context of viral infections. Chronic viral hepatitis depends on the inability of the T-cell immune response to eradicate antigen. In the case of recombinant Adeno-Associated-Virus, used for therapeutic gene transfer, conflicting reports describe tolerance induction to different transgene products while other studies have shown conventional cytotoxic CD8+ T cell responses with a rapid loss of transgene expression. We performed a 1 year follow up of 6 non-human primates after all animals received an rAAV8 vector carrying the GFP transgene at doses of 7×1012 vg/kg. We report that despite anti-GFP peripheral cellular response and loss of hepatic transgene expression, we were still able to detect persisting viral genomes in the liver until 1-year post-injection. These viral genomes were associated with liver inflammation, fibrosis and signs of CD8 T cell exhaustion, including high expression of PD-1. Our study shows that AAV8-mediated gene transfer can results to loss of transgene expression in liver and chronic inflammation several months after gene transfer.
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