Extravesicular TIMP-1 is a non-invasive independent prognostic marker and potential therapeutic target in colorectal liver metastases.
Venkatesh Sadananda RaoQianyu GuSandra TzschentkeKuailu LinNicole GanigMay-Linn ThepkaysoneFang Cheng WongHeike PolsterLena SeifertAdrian M SeifertNathalie BuckCarina RiedigerJonas WeißeTony GutschnerSusanne MichenAchim TemmeMartin SchneiderFranziska BaenkeJürgen WeitzChristoph KahlertPublished in: Oncogene (2022)
Molecular reprogramming of stromal microarchitecture by tumour-derived extracellular vesicles (EVs) is proposed to favour pre-metastatic niche formation. We elucidated the role of extravesicular tissue inhibitor of matrix metalloproteinase-1 (TIMP1 EV ) in pro-invasive extracellular matrix (ECM) remodelling of the liver microenvironment to aid tumour progression in colorectal cancer (CRC). Immunohistochemistry analysis revealed a high expression of stromal TIMP1 in the invasion front that was associated with poor progression-free survival in patients with colorectal liver metastases. Molecular analysis identified TIMP1 EV enrichment in CRC-EVs as a major factor in the induction of TIMP1 upregulation in recipient fibroblasts. Mechanistically, we proved that EV-mediated TIMP1 upregulation in recipient fibroblasts induced ECM remodelling. This effect was recapitulated by human serum-derived EVs providing strong evidence that CRC release active EVs into the blood circulation of patients for the horizontal transfer of malignant traits to recipient cells. Moreover, EV-associated TIMP1 binds to HSP90AA, a heat-shock protein, and the inhibition of HSP90AA on human-derived serum EVs attenuates TIMP1 EV -mediated ECM remodelling, rendering EV-associated TIMP1 a potential therapeutic target. Eventually, in accordance with REMARK guidelines, we demonstrated in three independent cohorts that EV-bound TIMP1 is a robust circulating biomarker for a non-invasive, preoperative risk stratification in patients with colorectal liver metastases.
Keyphrases
- liver metastases
- extracellular matrix
- heat shock protein
- poor prognosis
- free survival
- squamous cell carcinoma
- endothelial cells
- bone marrow
- heat shock
- small cell lung cancer
- end stage renal disease
- oxidative stress
- induced apoptosis
- cell proliferation
- signaling pathway
- ejection fraction
- heat stress
- patients undergoing
- single cell
- climate change
- high glucose
- endoplasmic reticulum stress
- binding protein
- induced pluripotent stem cells
- patient reported