The VPS72-H2A.Z-Axis Is an Underappreciated Oncogenic Vulnerability in Lung Adenocarcinoma

Authors

• Xzaviar K. Solone, Henry Ford HealthFollow
• Selim Reza, Henry Ford HealthFollow
• Kalpana Subedi, Henry Ford HealthFollow
• Nirmal Parajuli, Henry Ford HealthFollow
• Li Zhou, Henry Ford HealthFollow
• Qing-Sheng Mi, Henry Ford HealthFollow

Recommended Citation

Solone XK, Reza S, Subedi K, Parajuli N, Zhou L, Mi Q. The VPS72-H2A.Z-Axis Is an Underappreciated Oncogenic Vulnerability in Lung Adenocarcinoma. Cancer Res 2026; 86(7):1.

Document Type

Conference Proceeding

Publication Date

4-3-2026

Publication Title

Cancer Res

Keywords

Oncology

Abstract

Lung adenocarcinoma (LUAD), the most common subtype of non-small cell lung cancer (NSCLC), frequently relies on epigenetic plasticity to support growth, stress adaptation, and therapeutic escape. Among the chromatin mechanisms enabling this plasticity, histone variant exchange is central. Incorporation of specific variants reshapes DNA accessibility and transcriptional programs, underpinning cancer cell adaptability. VPS72, a histone chaperone shared by the SRCAP and TIP60 complexes, mediates ATP-dependent deposition of the H2A.Z-H2B dimer into regulatory chromatin, thereby promoting proliferation, lineage state, immune evasion, and treatment tolerance transcriptional programs. H2A.Z deposition is linked to aggressive malignancy; however, the contribution of VPS72 itself to LUAD progression remains undefined. Given its central role in H2A.Z loading, the VPS72-H2A.Z axis may represent a key epigenetic driver and potentially targetable vulnerability. TCGA LUAD datasets were analyzed to profile VPS72 expression, genomic correlates, and functional relevance. VPS72 was significantly upregulated relative to normal tissue and associated with greater genomic instability, higher tumor mutational burden, stronger hypoxia signatures, earlier clinical detectability, and reduced overall survival. High VPS72 expression was also observed in female patients and ever-smokers, indicating exposure-linked modulation. Functional evaluation in LUAD models showed that genome-wide CRISPR and RNAi screens identified VPS72 as a major fitness gene. shRNA-mediated VPS72 depletion reduced proliferation and Ki-67 expression, reduced colony formation, impaired migration and invasion, and abrogated anchorage-independent growth. Transcriptional profiling revealed that VPS72 loss strongly repressed MYC- and E2F-driven cell-cycle programs and disrupted metabolic pathways, including heme biosynthesis, mitochondrial respiration, calcium signaling, and hypoxia adaptation. Although H2A.Z itself is not directly targetable, VPS72 role in its deposition creates a druggable interface. To exploit this, we developed cell-permeable peptides that block the VPS72-H2A.Z interaction, which phenocopied VPS72 knockdown by inducing apoptosis and suppressing LUAD cell growth in a dose-dependent manner. Collectively, these findings identify VPS72 as a central epigenetic regulator and therapeutically actionable vulnerability in LUAD. Disrupting the VPS72-H2A.Z axis attenuates oncogenic transcriptional programs and malignant behaviors, offering a promising strategy to overcome epigenetic plasticity and treatment resistance in aggressive NSCLC.

Volume

86

Issue

7

First Page

1