Stromal KITL/SCF Maintains Pancreas Tissue Homeostasis and Restrains Tumor Progression
Menée à l'aide de lignées cellulaires et de modèles murins, cette étude met en évidence un mécanisme par lequel le facteur de cellules souches KITL maintient l'homéostasie des tissus pancréatiques et limite la progression tumorale
Components of normal tissue architecture serve as barriers to tumor progression. Inflammatory and wound-healing programs are requisite features of solid tumorigenesis, wherein alterations to immune and nonimmune stromal elements enable loss of homeostasis during tumor onset. The precise mechanisms by which normal stromal cell states limit tissue plasticity and tumorigenesis, and which are lost during tumor progression, remain largely unknown. In this study, we show that healthy pancreatic mesenchyme expresses the paracrine signaling molecule KITL, also known as stem cell factor, and identify the loss of stromal KITL during tumorigenesis as tumor promoting. Genetic inhibition of mesenchymal KITL in the contexts of health, injury, and cancer together indicates a role for KITL signaling in the maintenance of pancreas tissue architecture, such that the loss of the stromal KITL pool increased tumor growth and reduced survival of tumor-bearing mice. Together, these findings implicate the loss of mesenchymal KITL as a mechanism for establishing a tumor-permissive microenvironment.By analyzing transcriptional programs in healthy and tumor-associated pancreatic mesenchyme, we find that a subpopulation of mesenchymal cells in healthy pancreas tissue expresses the paracrine signaling factor KITL. The loss of mesenchymal KITL is an accompanying and permissive feature of pancreas tumor evolution, with potential implications for cancer interception.See related article by Dolskii and Cukierman, p. XX
Cancer Discovery 2024