Mast cells induce epithelial-to-mesenchymal transition and stem cell features in human thyroid cancer cells through an IL-8-Akt-Slug pathway.

There is increasing evidence that mast cells (MCs) and their mediators are involved in the remodeling of the tumor microenvironment and promote tumor growth, angiogenesis and metastasis. We have found that an increased density of MCs in thyroid cancer (TC) correlates with enhanced invasiveness. However, the MC-derived factors responsible for this activity and the mechanisms by which they enhance TC invasiveness remain unidentified. Here, we report that MCs, when activated by TC cells, produce soluble factors that induce epithelial-to-mesenchymal transition (EMT) and stemness features of TC cells. We identified CXCL8/interleukin (IL)-8 as the main mediator contained in activated MC conditioned media (CM) capable of inducing both EMT and stemness of TC cells. Mechanistically, MC CM or exogenous IL-8 stimulated Akt phosphorylation and Slug expression in TC cells. The inhibition of the Akt pathway or depletion of the Slug transcription factor by RNA interference, reverted EMT and stemness responses. TC cells stably transfected with exogenous IL-8 underwent EMT, displayed increased stemness and enhanced tumorigenicity with respect to control cells. The analysis of TC surgical specimens by immunohistochemical analysis demonstrated a positive correlation between MC density (Tryptase(+) cells) and stemness features (OCT4 staining). Taken together, our data identify an MC-dependent IL-8-Akt-Slug pathway that sustains EMT/stemness of TC cells. The blockade of this circuit might be exploited for the therapy of advanced TC.

Floral genes expressed in tomato hypocotyl explants in liquid culture.

This paper confirms, at molecular level, previous data showing that small explants of many plants do form a floral meristem and express specific floral genes after only few days in culture. After 15-20 days of culture, small tomato hypocotyl explants develop differentiated structures often resembling primitive ancestral reproductive organs. Other specific reproductive functions such as chromosomal segregation (somatic meiosis) were also present and demonstrated by means of a cytological and histological analysis. By reverse transcriptase-PCR and in situ hybridization it was found that these structures are indeed able to express flower-specific genes. The TM8 gene, a tomato gene that is expressed very early during floral development, is detectable on the proliferating hypocotyl explants during the first week of culture. The MON9612 gene, which in vivo is expressed only by tomato pistils and ovules, is detectable on the ovulelike structures developed after 20 days of culture. The construction of transgenic tomato plants expressing the GUS gene under the control of the MON9612 promoter allowed us to follow the induction and the expression of this gene during explant proliferation and development of the flowerlike structures. These data confirm the hypothesis that a floral reprogramming can be induced in plant explants as a consequence of wounding and growth factors action. It appears to be an effort to survive stress by means of an unscheduled reproductive program.