Abstract
Gastrointestinal stromal tumours (GISTs), the most common mesenchymal neoplasm of the gastrointestinal tract, result from deregulated proliferation of transformed KIT‐positive interstitial cells of Cajal that share mesenchymal progenitors with smooth muscle cells. Despite the identification of selective KIT inhibitors, primary resistance and relapse remain a major concern. Moreover, most patients develop resistance partly through reactivation of KIT and its downstream signalling pathways. We previously identified the Limb Expression 1 (LIX1) gene as a unique marker of digestive mesenchyme immaturity. We also demonstrated that LIX1 regulates mesenchymal progenitor proliferation and differentiation by controlling the Hippo effector YAP1, which is constitutively activated in many sarcomas. Therefore, we wanted to determine LIX1 role in GIST development. We found that LIX1 is strongly up‐regulated in GIST samples and this is associated with unfavourable prognosis. Moreover, LIX1 controls GIST cell proliferation in vitro and in vivo. Upon LIX1 inactivation in GIST cells, YAP1/TAZ activity is reduced, KIT (the GIST signature) is down‐regulated, and cells acquire smooth muscle lineage features. Our data highlight LIX1 role in digestive mesenchyme‐derived cell‐fate decisions and identify this novel regulator as a target for drug design for GIST treatment by influencing its differentiation status.
Highlights
The digestive musculature arises from the differentiation of common mesenchymal progenitors into interstitial cells of Cajal (ICCs) and smooth muscle cells (SMCs).[1,2] Unlike many other mature cell types in the adult body, smooth mesenchyme-derived cells do not terminally differentiate, but they can reversibly modulate their phenotype, switching between a differentiated functional quiescent state and a highly proliferative mesenchymal precursor state
We previously reported that Limb Expression 1 (LIX1) regulates mesenchymal progenitor proliferation and differentiation through the Hippo mediator YAP1,13 which is involved in the control of Gastrointestinal stromal tumours (GISTs) cell proliferation.[35]
As GISTs originate from KIT-positive ICCs that share common mesenchymal progenitors with SMCs, these findings indicate that LIX1 silencing promotes a phenotypic modulation of KIT-positive GIST cells towards the SMC lineage
Summary
The digestive musculature arises from the differentiation of common mesenchymal progenitors into interstitial cells of Cajal (ICCs) and smooth muscle cells (SMCs).[1,2] Unlike many other mature cell types in the adult body, smooth mesenchyme-derived cells do not terminally differentiate, but they can reversibly modulate their phenotype, switching between a differentiated functional quiescent state and a highly proliferative mesenchymal precursor state This feature is often associated with high neoplastic risk.[3] Gastrointestinal stromal tumours (GISTs) are the most common mesenchymal cancers of the gastrointestinal tract.[4] GISTs result from deregulated proliferation of KIT-positive cells, either ICCs or ICC/ SMC mesenchymal progenitors.[1,4,5,6] GISTs occur predominantly in. Our study reveals LIX1 key role in GIST pathophysiology as a rheostat for the control of cell identity
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