Overcoming Multidrug Resistance in B Cell Malignancies By Antagonism of Stromal Mediated TGF-β Signalling

Novel targeted therapies have substantially improved the prognosis of patients with B cell malignancies. However, a substantial fraction of patients still relapse, even after initially achieving deep remissions. Many studies have characterized the interactions between tumor cells and their microenvironment as integral to leukemia/ lymphoma homeostasis and for the provision of survival signals, also contributing to drug resistance (referred to as environment-mediated drug resistance (EMDR)). Therapeutic efforts to antagonize microenvironment-emanating survival cues have predominantly focused on perturbation of tumour cell adhesion enabling the physical displacement from protective niches (e.g. BCR-inhibitors). In an effort to address whether direct stromal targeting could more precisely mitigate EMDR, we recently characterised the molecular mechanisms underlying tumor-stroma interactions in B cell malignancies and identified a protein kinase C-β (PKC-β) as an essential kinase, required for activation of NF-κB in mesenchymal stromal cells (Lutzny et al Cancer Cell 2013). The dependency on stroma PKC-β was uniformly found for acute (ALL) and chronic (CLL, MCL) B cell malignancies. Importantly, our data further demonstrate that targeting stroma PKC-β is of key importance for multi-drug resistance of malignant B cells and can be used for therapeutic interventions (Park et al Science Trans Med 2020).