Neuregulins (NRGs) are protein ligands that impact neural development and circuit function. NRGs signal through the ErbB receptor tyrosine kinase family. NRG1/ErbB4 signaling in parvalbumin-expressing (PV) inhibitory interneurons is critical for visual cortical plasticity. There are multiple types of NRGs and ErbBs that can potentially contribute to visual cortical plasticity at different developmental stages. Thus, it is important to understand the normal developmental expression profiles of NRGs and ErbBs in specific neuron types in the visual cortex, and to study whether and how their expression changes in PV inhibitory neurons and excitatory neurons track with sensory perturbation. Cell type-specific translating ribosome affinity purification and qPCR was used to compare mRNA expression of nrg1,2,3,4 and erbB1,2,3,4 in PV and excitatory neurons in mouse visual cortex. We show that the expression of nrg1 and nrg3 decreases in PV neurons at the critical period peak, postnatal day 28 (P28) after monocular deprivation and dark rearing, and in the adult cortex (at P104) after 2-week long dark exposure. In contrast, nrg1 expression by excitatory neurons is unchanged at P28 and P104 following sensory deprivation, whereas nrg3 expression by excitatory neurons shows changes depending on the age and the mode of sensory deprivation. ErbB4 expression in PV neurons remains consistently high and does not appear to change in response to sensory deprivation. These data provide new important details of cell type-specific NRG/ErbB expression in the visual cortex and support that NRG1/ErbB4 signaling is implicated in both critical period and adult visual cortical plasticity.
3001 PIM kinases co-regulate several important elements of the PI3K/AKT/mTOR pathway in myeloma cells (Munugalavadla V. et al., ASH 2010 submitted abstr.). In this study we show that pan-PIM inhibition suppresses growth in myeloma cell lines, xenografts, and primary patient samples, both as a single-agent as well acting synergistically in combination with PI3K, AKT, and mTOR inhibition. The PIM kinases are a family of 3 ser/thr growth factor- & cytokine-induced proteins hypothesized to have redundant survival and growth functions. Although PIM-1,2 have been noted as highly expressed in myeloma (Claudio et al., 2002), there are few data to support potential therapeutic utility of PIM inhibition in this indication. We show myeloma cell lines express all 6 PIM protein isoforms to varying extents, and we describe the properties of a novel pan-PIM inhibitor GNE-652 with picomolar biochemical potency, an excellent selectivity profile, and favorable ADME properties. Myeloma cell lines exhibit a striking prevalence of response to GNE-652 (23 of 25 lines with IC50 < 1 micromolar, median < 0.1 micromolar) and synergy in combination with the PI3K inhibitor GDC-0941 (mean combination index values ~0.2 (n=25)). We used an unrelated compound GNE-568 which has a PIM-1,3 selective profile to test the hypothesis that PIM-2 may have a non-redundant role in myeloma cells. GNE-568 while having cellular potency against PIM-1 and PIM-3, did not have single agent activity in myeloma cell lines nor did it act synergistically with GDC-0941 (n=10 cell lines). Interestingly, PI3K and AKT inhibitors showed the greatest extent of synergy with GNE-652, whereas mTOR-selective inhibitors were synergistic to a lesser extent. Standard of care agents dexamethasone, revlimid, velcade, and melphalan also combined well with GNE-652, but to a lesser extent and not as broadly. The synergistic anti-tumor activity of GNE-652 and PI3K inhibitor GDC-0941 on cell lines or on primary myeloma bone marrow aspirates in vitro was associated with cell-cycle arrest and marked apoptosis. In addition, we found 4 of 4 myeloma xenograft mouse models tested with GNE-562 and GDC-0941 showed excellent combination efficacy that correlated with modulation of the expected pharmacodynamic markers. These results provide the rationale for further preclinical development of PIM inhibitors and provide the basis for a possible clinical development plan in multiple myeloma. Disclosures: Ebens: Genentech: Employment, Equity Ownership. Berry:Genentech: Employment, Equity Ownership. Chen:Genentech: Employment, Equity Ownership. Deshmukh:Genentech: Employment, Equity Ownership. Drummond:Genentech: Employment, Equity Ownership. Du:Genentech: Employment, Equity Ownership. Eby:Genentech: Employment, Equity Ownership. Fitzgerald:Genentech: Employment, Equity Ownership. S. Friedman:Genentech: Employment, Equity Ownership. E. Gould:Genentech: Employment, Equity Ownership. Kenny:Genentech: Employment, Equity Ownership. Maecker:Genentech: Employment, Equity Ownership. Moffat:Genentech: Employment, Equity Ownership. Moskalenko:Genentech: Employment, Equity Ownership. Pacheco:Genentech: Employment, Equity Ownership. Saadat:Genentech: Employment, Equity Ownership. Slaga:Genentech: Employment, Equity Ownership. Sun:Genentech: Employment, Equity Ownership. Wang:Genentech: Employment, Equity Ownership. Yang:Genentech: Employment, Equity Ownership. Munugalavadla:Genentech: Employment, Equity Ownership.
4084 Related work from our group has shown the therapeutic utility of PIM inhibition in multiple myeloma cell lines, xenografts, and primary patient samples (Ebens A. et al., ASH 2010 submitted abstr.). In this study we provide detailed mechanistic findings to show that PIM kinase inhibition co-regulates several important elements of the PI3K/AKT/mTOR pathway, resulting in significant synergy for combination drug treatments. The PIM kinases are a family of 3 ser/thr growth factor- & cytokine-induced proteins hypothesized to have redundant survival and growth functions. GNE-652 is a pan-PIM kinase inhibitor with picomolar biochemical potencies and an excellent kinase selectivity profile. Myeloma cell lines exhibit sensitivity to single agent PIM inhibition and a striking synergy in combination with the PI3K inhibitor GDC-0941. Cells respond to this combination with cell cycle arrest and marked apoptosis in vitro. We tested a panel of selective PI3K/AKT/mTOR inhibitors and found PI3K and AKT inhibitors showed the greatest extent of synergy with GNE-652, whereas mTOR inhibitors were synergistic to a lesser extent. These results suggest that PIM signaling converges on both TORC1 and AKT to generate these differential synergies. BAD is a negative regulator of both Bcl-2 and Bcl-XL, and we were able to confirm previous reports that AKT and PIM cooperate to inactivate BAD (Datt et al., 1997; Yan et al., 2003). Pim has been shown to potentially inactivate PRAS40, a negative regulator of TORC1 (Zhang et al., 2009). We demonstrate that PIM or PI3K inhibition caused a loss of phosphorylation on PRAS40 and results in a physical association of PRAS40 and TORC1 and a decrease in phosphorylated p70S6K and S6RP. These reductions were apparent in 7 of 7 cell lines assayed and enhanced by the combination of PI3K and PIM inhibition in these cell lines. Consistent with prior reports (Hammerman et al., 2005), we show that a second node of convergence between PIM and TORC1 is 4E-BP1. Both GDC-0941 and GNE-652 treatments reduced phosphorylation of 4E-BP1 in 7 of 7 myeloma cell lines. Since dephosphorylated 4E-BP1 competes with eIF4G for the mRNA cap binding factor eIF4E, we assayed immunoprecipitates of eIF4E for the presence of eIF4G and 4E-BP1 and observed increased BP1 and decreased 4G. The combination treatment significantly enhanced the loss of 4G relative to either single agent, and importantly, even at 5× the IC50 concentrations for single agents, combination drug treatment achieved greater extent of effect than single agent treatment. Thus PI3K and PIM pathways are redundant at the level of cap-dependent translational initiation mediated by eIF4E. It has been hypothesized a subset of mRNAs are particularly sensitive to inhibition of cap-dependent translation, and that this includes a number of oncogenes such as cyclin D1. We assayed global protein synthesis in MM1.s cells using 35S-methionine and as expected we observed only a modest ≂∼f20% decrease caused by either GNE-652 or GDC-0941 and this decrease was not enhanced by combination treatment. However, we noted across 7 different myeloma cell lines, strong decreases in levels of cyclin D1 that were enhanced by combination treatment. In summary, we have identified several points at which PIM and PI3K/AKT/mTOR converge to provide synergistic apoptosis in multiple myeloma cell lines. These results provide the rationale for further preclinical development of PIM inhibitors and provide the basis for a possible clinical development plan in multiple myeloma. Disclosures: Munugalavadla: Genentech: Employment, Equity Ownership. Berry:Genentech: Employment, Equity Ownership. Chen:Genentech: Employment, Equity Ownership. Deshmukh:Genentech: Employment, Equity Ownership. Drummond:Genentech: Employment, Equity Ownership. Du:Genentech: Employment, Equity Ownership. Eby:Genentech: Employment, Equity Ownership. Fitzgerald:Genentech: Employment, Equity Ownership. S.Friedman:Genentech: Employment, Equity Ownership. E.Gould:Genentech: Employment, Equity Ownership. Kenny:Genentech: Employment, Equity Ownership. Maecker:Genentech: Employment, Equity Ownership. Moffat:Genentech: Employment, Equity Ownership. Moskalenko:Genentech: Employment, Equity Ownership. Pacheco:Genentech: Employment, Equity Ownership. Saadat:Genentech: Employment, Equity Ownership. Slaga:Genentech: Employment, Equity Ownership. Sun:Genentech: Employment, Equity Ownership. Wang:Genentech: Employment, Equity Ownership. Yang:Genentech: Employment, Equity Ownership. Ebens:Genentech Inc: Employment, Equity Ownership.
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