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Tumor Suppressor WWOX inhibits osteosarcoma metastasis by modulating RUNX2 function

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AbstractOsteosarcoma (OS) is among the most frequently occurring primary bone tumors, primarily affecting adolescents and young adults. This malignant osteoid forming tumor is characterized by its metastatic potential, mainly to lungs. We recently demonstrated that WW domain-containing oxidoreductase (WWOX) is frequently inactivated in human OS and that WWOX restoration in WWOX-negative OS cells suppresses tumorigenicity. Of note, WWOX levels are reduced in paired OS samples of post-treatment metastastectomies as compared to pre-treatment biopsies suggesting that decreased WWOX levels are associated with a more aggressive phenotype at the metastatic site. Nevertheless, little is known about WWOX function in OS metastasis. Here, we investigated the role of tumor suppressor WWOX in suppressing pulmonary OS metastasis bothin vitroandin vivo. We demonstrated that ectopic expression of WWOX in OS cells, HOS and LM-7, inhibits OS invasion and cell migration in vitro. Furthermore, WWOX expression reduced tumor burden in vivo and inhibited metastases’ seeding and colonization. Mechanistically, WWOX function is associated with reduced levels of RUNX2 metastatic target genes implicated in adhesion and motility. Our results suggest that WWOX plays a critical role in determining the aggressive phenotype of OS and its expression could be an attractive therapeutic target to combat this devastating adolescent disease.
Springer Science and Business Media LLC
Title: Tumor Suppressor WWOX inhibits osteosarcoma metastasis by modulating RUNX2 function
Description:
AbstractOsteosarcoma (OS) is among the most frequently occurring primary bone tumors, primarily affecting adolescents and young adults.
This malignant osteoid forming tumor is characterized by its metastatic potential, mainly to lungs.
We recently demonstrated that WW domain-containing oxidoreductase (WWOX) is frequently inactivated in human OS and that WWOX restoration in WWOX-negative OS cells suppresses tumorigenicity.
Of note, WWOX levels are reduced in paired OS samples of post-treatment metastastectomies as compared to pre-treatment biopsies suggesting that decreased WWOX levels are associated with a more aggressive phenotype at the metastatic site.
Nevertheless, little is known about WWOX function in OS metastasis.
Here, we investigated the role of tumor suppressor WWOX in suppressing pulmonary OS metastasis bothin vitroandin vivo.
We demonstrated that ectopic expression of WWOX in OS cells, HOS and LM-7, inhibits OS invasion and cell migration in vitro.
Furthermore, WWOX expression reduced tumor burden in vivo and inhibited metastases’ seeding and colonization.
Mechanistically, WWOX function is associated with reduced levels of RUNX2 metastatic target genes implicated in adhesion and motility.
Our results suggest that WWOX plays a critical role in determining the aggressive phenotype of OS and its expression could be an attractive therapeutic target to combat this devastating adolescent disease.

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