PEER-REVIEWED PUBLICATION

2025

Pan-Cancer Analysis Reveals AEBP1–Collagen Co-Expression and Its Potential Role in CAF-Mediated Tumor Stiffness

Sekiguchi S, Yorozu A, et al.

International Journal of Molecular Sciences

Sapporo Medical University

RESEARCH SUMMARY

This study investigates the role of adipocyte enhancer–binding protein 1 (AEBP1) and its encoded protein, aortic carboxypeptidase-like protein (ACLP), in regulating tumor stiffness through cancer-associated fibroblast (CAF) activity across multiple cancer types. Through integrated transcriptomic analyses of 32 TCGA tumor types, AEBP1 expression was found to correlate strongly with collagen and extracellular matrix (ECM) gene sets, particularly within the CAF compartment. Single-cell RNA-seq of breast and pancreatic tumors revealed that AEBP1 is co-expressed with collagen family genes in myofibroblastic and matrix CAFs. Functional assays using 3D oral squamous cell carcinoma (OSCC)-derived CAF spheroids demonstrated that AEBP1 knockdown markedly decreased mechanical stiffness without affecting spheroid size or morphology. Together, these findings identify AEBP1/ACLP as a pan-cancer stromal regulator that enhances ECM rigidity and immune exclusion, implicating it as a therapeutic target for tumor desmoplasia and fibrosis.

Mechanical testing of CAF- and fibroblast-derived 3D spheroids was conducted using a CellScale MicroSquisher to quantify stiffness following AEBP1 knockdown. Spheroids were compressed under a controlled displacement protocol to record force–displacement curves, analyzed with SquisherJoy software to compute stiffness (µN/µm). Results showed a significant reduction in stiffness in AEBP1-deficient CAF spheroids compared to controls, confirming AEBP1’s role in CAF-mediated ECM stiffening. Complementary tests using human conjunctival fibroblasts (HconF) yielded similar reductions, validating the MicroSquisher’s sensitivity for microscale tumor-mechanics assays.

AUTHORS

Shohei Sekiguchi, Akira Yorozu, Megumi Watanabe, Fumika Okazaki, Satoshi Ohwada, Eiichiro Yamamoto, Takeshi Niinuma, Hiroshi Kitajima, Kazuya Ishiguro, Mitsunobu Saito, Masahiro Kai, Masashi Idogawa, Kenichi Takano, Akihiro Miyazaki, Hiroshi Ohguro, Hiromu Suzuki.

PUBLICATION DETAILS

JOURNAL

International Journal of Molecular Sciences

YEAR

2025

INSTITUTIONS

Sapporo Medical University

COUNTRIES

Japan

INSTRUMENT USED

MicroSquisher

TESTING METHODS

Compression TestingHydrated and Temperature Controlled TestingMicro-Mechanical TestingUltra Low Force Testing

RESEARCH APPLICATIONS

Cancer MechanobiologyFibrosis & Tissue RemodelingMechanotransductionMicrotissue and Spheroid MechanicsOrganoid and Tissue Mimetic Systems

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