Tumor metastasis to lymph nodes requires YAP-dependent metabolic adaptation

Lee, Choong-kun; Jeong, Sangman; Jang, Cholsoon; Bae, Hosung; Kim, Yoo Hyung; Park, Intae; Kim, Sang Kyum; Koh, Gou Young

doi:10.1126/science.aav0173

Cited by 295 publications

(262 citation statements)

References 39 publications

Supporting

Mentioning

234

Contrasting

Order By: Relevance

“…The increased expression of arachidonic acid metabolism genes may also promote breast cancer growth through generation of eicosanoids ( Figure S6A; Jiang et al, 2005;Mitra et al, 2011). Consistent with the elevated lipolytic activity, bile acid metabolites were the most highly increased compounds identified in p53 178C/C plasma and have been reported to mediate tumor metastasis to lymph nodes ( Figure S5B; Lee et al, 2019). There are limited data on the physiological effects of germline LFS mutations, but our p53 178C/C mouse model reveals an activity of a relatively common LFS mutation that regulates basal metabolism and may also affect cancer development.…”

Section: Discussionmentioning

confidence: 79%

A Mouse Homolog of a Human TP53 Germline Mutation Reveals a Lipolytic Activity of p53

Kang¹,

Lago²,

Lee³

et al. 2020

Cell Reports

View full text Add to dashboard Cite

show abstract

Section: Discussionmentioning

confidence: 79%

A Mouse Homolog of a Human TP53 Germline Mutation Reveals a Lipolytic Activity of p53

Kang¹,

Lago²,

Lee³

et al. 2020

Cell Reports

View full text Add to dashboard Cite

show abstract

“…[ 110 ] YAP shRNA also reduced the ability of B16F10 melanoma cells to spread to lymph nodes following implantation into footpads. [ 111 ] YAP shRNA knockdown reduced, and YAP 5SA overexpression increased, the expression of PD‐L1 in treatment‐resistant melanoma cells (A375SM), suppressing T‐cell killing. [ 112 ] Thus, the evidence from cell lines supports a possible role for YAP/TAZ in melanoma metastasis and resistance to immunotherapy.…”

Section: Introductionmentioning

confidence: 99%

YAP/TAZ: Drivers of Tumor Growth, Metastasis, and Resistance to Therapy

2020

View full text Add to dashboard Cite

The transcriptional co-activators YAP (or YAP1) and TAZ (or WWTR1) are frequently activated during the growth and progression of many solid tumors, including lung, colorectal, breast, pancreatic, and liver carcinomas as well as melanoma and glioma. YAP/TAZ bind to TEAD-family co-activators to drive cancer cell survival, proliferation, invasive migration, and metastasis. YAP/TAZ activation may also confer resistance to chemotherapy, radiotherapy, or immunotherapy. YAP-TEAD cooperates with the RAS-induced AP-1 (FOS/JUN) transcription factor to drive tumor growth and cooperates with MRTF-SRF to promote activation of cancer-associated fibroblasts, matrix stiffening, and metastasis. The key upstream repressor of YAP/TAZ activation is the Hippo (MST1/2-LATS1/2) pathway and the key upstream activators are mechanically induced Integrin-SRC and E-cadherin-AJUBA/TRIP6/LIMD1, growth factor induced PI3K-AKT, and inflammation-induced G-protein coupled receptor (GPCR) signals, all of which antagonize the Hippo pathway. In this review, strategies to target YAP/TAZ activity in cancer are discussed along with the prospects for synergy with established pillars of cancer therapy.

show abstract

“…Aside from metastatic ovarian cancer, altered lipid metabolism was also observed as a regulator of tumor metastasis to lymph nodes in melanoma by Lee et al [61]. The authors utilized subcutaneous xenograft models and compared cells isolated from the primary tumor site versus micrometastatic and macrometastatic tumor-draining lymph nodes.…”

Section: Involvement Of Lipid Metabolism In the Process Of Oc Metastasismentioning

confidence: 99%

Ovarian Cancer—Why Lipids Matter

Zhao

Cárdenas

Matei

2019

Cancers

View full text Add to dashboard Cite

This review highlights recent advances in the understanding of the relevance of altered lipid metabolic pathways contributing to the poor prognosis of high grade serous ovarian cancer, as they relate to cancer metastasis and cancer stemness. Increased lipid uptake regulated by the receptor CD36 and the transport protein FABP4 has been implicated in ovarian cancer metastasis. The symbiotic relationship between ovarian cancer cells and adipocytes was shown to be important for sustaining widespread peritoneal and omental metastasis. Increased lipogenesis dependent on the fatty acid desaturase SCD1 was detected in ovarian cancer stem cells. Furthermore, response to therapy, specifically to platinum, was linked to increased fatty acid biogenesis, while the survival of drug tolerant cells was shown to depend on lipid peroxidation. These recent findings suggest that lipids are necessary elements supporting oncogenic signaling and the energetic needs of rapidly proliferating cancer cells. New strategies targeting key enzymes involved in lipid uptake or utilization in cancer cells have been shown to exert anti-tumor effects and are being developed as cancer interventions in combination with chemotherapy or immunotherapy.

show abstract

Tumor metastasis to lymph nodes requires YAP-dependent metabolic adaptation

Cited by 295 publications

References 39 publications

A Mouse Homolog of a Human TP53 Germline Mutation Reveals a Lipolytic Activity of p53

A Mouse Homolog of a Human TP53 Germline Mutation Reveals a Lipolytic Activity of p53

YAP/TAZ: Drivers of Tumor Growth, Metastasis, and Resistance to Therapy

Ovarian Cancer—Why Lipids Matter

Contact Info

Product

Resources

About