Kidney transplantation in patients with multiple myeloma: narrative analysis and review of the last two decades.

There have been significant advances in the treatment of multiple myeloma in the last two decades. Approximately 25% of patients with newly diagnosed myeloma have some degree of kidney impairment. During the course of illness, nearly 50% of myeloma patients will develop kidney disease. Moreover, ∼10% of myeloma patients have advanced kidney disease requiring dialysis at presentation. Hemodialysis is associated with a significantly reduced overall survival (OS). In the setting of prolonged long-term OS due to the use of newer immunotherapeutic agents in the treatment of myeloma, patients with myeloma and advanced kidney disease may benefit from more aggressive management with kidney transplantation (KTx). Unfortunately, most data regarding outcomes of KTx in patients with myeloma come from single-center case series. With the advent of novel treatment choices, it remains unclear if outcomes of kidney transplant recipients with myeloma have improved in recent years. In this descriptive systematic review, we coalesced published patient data over the last 20 years to help inform clinicians and patients on expected hematologic and KTx outcomes in this complex population. We further discuss the future of KTx in patients with paraproteinemia.

SKP2 Activation by Thyroid Hormone Receptor ß2 Bypasses Rb-Dependent Proliferation in Rb-Deficient Cells.

Germline RB1 mutations strongly predispose humans to cone precursor-derived retinoblastomas and strongly predispose mice to pituitary tumors, yet shared cell type-specific circuitry that sensitizes these different cell types to the loss of RB1 has not been defined. Here we show that the cell type-restricted thyroid hormone receptor isoform TRß2 sensitizes to RB1 loss in both settings by antagonizing the widely expressed and tumor-suppressive TRß1. TRß2 promoted expression of the E3 ubiquitin ligase SKP2, a critical factor for RB1-mutant tumors, by enabling EMI1/FBXO5-dependent inhibition of SKP2 degradation. In RB1 wild-type neuroblastoma cells, endogenous Rb or ectopic TRß2 was required to sustain SKP2 expression as well as cell viability and proliferation. These results suggest that in certain contexts, Rb loss enables TRß1-dependent suppression of SKP2 as a safeguard against RB1-deficient tumorigenesis. TRß2 counteracts TRß1, thus disrupting this safeguard and promoting development of RB1-deficient malignancies. Cancer Res; 77(24); 6838-50. ©2017 AACR.