Ana Sastre-Perona scite author profile

Summary Squamous cell carcinomas (SCCs) are heterogeneous tumors that are sustained by tumor propagating cancer cells (TPCs). SCCs frequently resist chemotherapy through mechanisms that are still unknown. Here, we combine H2BGFP based pulse-chasing with cell surface markers to distinguish quiescent from proliferative TPCs within SCCs. We find that quiescent TPCs resist DNA damage and exhibit increased tumorigenic potential in response to chemotherapy, whereas proliferative TPCs undergo apoptosis. Quiescence is regulated by TGFβ/SMAD signaling, which directly regulates cell cycle gene transcription to control a reversible G1 cell cycle arrest, independent of p21CIP function. Indeed, genetic or pharmacological TGFβ inhibition increases the susceptibility of TPCs to chemotherapy as it prevents entry into a quiescent state. These findings provide direct evidence that TPCs can reversibly enter a quiescent, chemoresistant state which underscores the need for combinatorial approaches to improve treatment of chemotherapy-resistant SCCs.

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SOX2 is a cancer-specific regulator of tumour initiating potential in cutaneous squamous cell carcinoma

Siegle

et al. 2014

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Although the principles that balance stem cell self-renewal and differentiation in normal tissue homeostasis are beginning to emerge, it is still unclear whether cancer cells with tumor initiating potential are similarly governed, or whether they have acquired distinct mechanisms to sustain self-renewal and long-term tumor growth. Here we show that the transcription factor Sox2, which is not expressed in normal skin epithelium and is dispensable for epidermal homeostasis, marks tumor initiating cells (TICs) in cutaneous squamous cell carcinomas (SCC). We demonstrate that Sox2 is required for SCC growth in mouse and human, where it enhances Nrp1/Vegf signaling to promote the expansion of TICs along the tumor-stroma interface. Our findings suggest that distinct transcriptional programs govern self-renewal and long-term growth of TICs and normal skin epithelial stem and progenitor cells. These programs present promising diagnostic markers and targets for cancer specific therapies.

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The miR-146b-3p/PAX8/NIS Regulatory Circuit Modulates the Differentiation Phenotype and Function of Thyroid Cells during Carcinogenesis

Riesco‐Eizaguirre

Wert-Lamas

Perales-Patón

et al. 2015

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