ROCK-mediated selective activation of PERK signalling causes fibroblast reprogramming and tumour progression through a CRELD2-dependent mechanism.
Sarah Theresa BoyleValentina PoltavetsJasreen KularNatasha Theresa PyneJarrod John SandowAlexander Charles LewisKendelle Joan MurphyNatasha KolesnikoffPaul Andre Bartholomew MorettiMelinda Nay TeaVinay TergaonkarPaul TimpsonStuart Maxwell PitsonAndrew Ian WebbRobert John WhitfieldAngel Francisco LopezMarina KochetkovaMichael Susithiran SamuelPublished in: Nature cell biology (2020)
It is well accepted that cancers co-opt the microenvironment for their growth. However, the molecular mechanisms that underlie cancer-microenvironment interactions are still poorly defined. Here, we show that Rho-associated kinase (ROCK) in the mammary tumour epithelium selectively actuates protein-kinase-R-like endoplasmic reticulum kinase (PERK), causing the recruitment and persistent education of tumour-promoting cancer-associated fibroblasts (CAFs), which are part of the cancer microenvironment. An analysis of tumours from patients and mice reveals that cysteine-rich with EGF-like domains 2 (CRELD2) is the paracrine factor that underlies PERK-mediated CAF education downstream of ROCK. We find that CRELD2 is regulated by PERK-regulated ATF4, and depleting CRELD2 suppressed tumour progression, demonstrating that the paracrine ROCK-PERK-ATF4-CRELD2 axis promotes the progression of breast cancer, with implications for cancer therapy.
Keyphrases
- endoplasmic reticulum
- endoplasmic reticulum stress
- protein kinase
- papillary thyroid
- stem cells
- cancer therapy
- healthcare
- transcription factor
- end stage renal disease
- squamous cell
- ejection fraction
- chronic kidney disease
- newly diagnosed
- childhood cancer
- drug delivery
- prognostic factors
- lymph node metastasis
- type diabetes
- patient reported outcomes
- squamous cell carcinoma
- adipose tissue
- high fat diet induced
- insulin resistance
- fluorescent probe
- metabolic syndrome