Vessel co-option is common in human lung metastases and mediates resistance to anti-angiogenic therapy in preclinical lung metastasis models
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Tartalom: http://real.mtak.hu/61355/
Archívum: MTA Könyvtár
Gyűjtemény: Status = Published

Type = Article
Cím:
Vessel co-option is common in human lung metastases and mediates resistance to anti-angiogenic therapy in preclinical lung metastasis models
Létrehozó:
Bridgeman, Victoria L
Vermeulen, Peter B
Foo, Shane
Bilecz, Ágnes
Daley, Frances
HegedĹąs, BalĂĄzs
RĂŠnyi-VĂĄmos, Ferenc IstvĂĄn
Paku, SĂĄndor
DĂśme, BalĂĄzs
Kiadó:
John Wiley & Sons
Dátum:
2017
Téma:
RC0254 Neoplasms. Tumors. Oncology (including Cancer) / daganatok, tumorok, onkolĂłgia
Tartalmi leírás:
Anti-angiogenic therapies have shown limited efficacy in the clinical management of metastatic disease, including lung metastases. Moreover, the mechanisms via which tumours resist anti-angiogenic therapies are poorly understood. Importantly, rather than utilising angiogenesis, some metastases may instead incorporate pre-existing vessels from surrounding tissue (vessel co-option). Since anti-angiogenic therapies were designed to target only new blood vessel growth, vessel co-option has been proposed as a mechanism that could drive resistance to anti-angiogenic therapy. However, vessel co-option has not been extensively studied in lung metastases, and its potential to mediate resistance to anti-angiogenic therapy in lung metastases is not established. Here we examine the mechanism of tumour vascularisation in 164 human lung metastasis specimens (composed of breast, colorectal and renal cancer lung metastasis cases). We identify four distinct histopathological growth patterns (HGPs) of lung metastasis (alveolar, interstitial, perivascular cuffing and pushing) that each vascularise via a different mechanism. In the alveolar HGP, cancer cells invade the alveolar air spaces, which facilitates the co-option of alveolar capillaries. In the interstitial HGP, cancer cells invade into the alveolar walls to co-opt alveolar capillaries. In the perivascular cuffing HGP, cancer cells grow by co-opting larger vessels of the lung. Only in the pushing HGP did the tumours vascularise by angiogenesis. Importantly, vessel co-option occurred with high frequency, being present in over 80% of the cases examined. Moreover, we provide evidence that vessel co-option mediates resistance to the anti-angiogenic drug sunitinib in preclinical lung metastasis models. Assuming that our interpretation of the data is correct, we conclude that vessel co-option in lung metastases occurs through at least three distinct mechanisms, that vessel co-option occurs frequently in lung metastases and that vessel co-option could mediate resistance to anti-angiogenic therapy in lung metastases. Novel therapies designed to target both angiogenesis and vessel co-option are therefore warranted.
Nyelv:
angol
Típus:
Article
PeerReviewed
info:eu-repo/semantics/article
Formátum:
text
Azonosító:
Bridgeman, Victoria L and Vermeulen, Peter B and Foo, Shane and Bilecz, Ágnes and Daley, Frances and HegedŹs, Balåzs and RÊnyi-Våmos, Ferenc Istvån and Paku, Såndor and DÜme, Balåzs (2017) Vessel co-option is common in human lung metastases and mediates resistance to anti-angiogenic therapy in preclinical lung metastasis models. JOURNAL OF PATHOLOGY, 241 (3). pp. 362-374. ISSN 0022-3417
Kapcsolat:
https://doi.org/10.1002/path.4845
MTMT:3140936; doi:10.1002/path.4845