Summary p97 is a AAA-ATPase with multiple cellular functions, one of which is critical regulation of protein homeostasis pathways. We describe the characterization of CB-5083, a potent, selective and orally bioavailable inhibitor of p97. Treatment of tumor cells with CB-5083 leads to accumulation of poly-ubiquitinated proteins, retention of endoplasmic reticulum associated degradation (ERAD) substrates and generation of irresolvable proteotoxic stress leading to activation of the apoptotic arm of the unfolded protein response (UPR). In xenograft models, CB-5083 causes modulation of key p97-related pathways, induces apoptosis and has antitumor activity in a broad range of both hematological and solid tumor models. Molecular determinants of CB-5083 activity include expression of genes in the ERAD pathway providing a potential strategy for patient selection.
SUMMARY Recognition of the multiple roles of Hedgehog signaling in cancer has prompted intensive efforts to develop targeted pathway inhibitors. Leading inhibitors in clinical development act by binding to a common site within Smoothened, a critical pathway component. Acquired Smoothened mutations, including SMOD477G, confer resistance to these inhibitors. We report here that itraconazole and arsenic trioxide, two agents in clinical use that inhibit Hedgehog signaling by mechanisms distinct from that of current Smoothened antagonists, retain inhibitory activity in vitro in the context of all reported resistance-conferring Smoothened mutants and GLI2 overexpression. Itraconazole and arsenic trioxide, alone or in combination, inhibit the growth of medulloblastoma and basal cell carcinoma in vivo, and prolong survival of mice with intracranial drug-resistant SMOD477G medulloblastoma.
Multiple sclerosis (MS) is a heterogenous autoimmune disease in which autoreactive lymphocytes attack the myelin sheath of the central nervous system (CNS). B lymphocytes in the cerebrospinal uid (CSF) of MS patients contribute to in ammation and secrete oligoclonal immunoglobulins. Epstein-Barr virus (EBV) infection has been linked to MS epidemiologically, but its pathological role remains unclear. Here we demonstrate high-a nity molecular mimicry between the EBV transcription factor EBNA1 and the CNS protein GlialCAM, and provide structural and in-vivo functional evidence for its relevance. A cross-reactive CSF-derived antibody was initially identi ed by single-cell sequencing of the paired-chain B cell repertoire of MS blood and CSF, followed by protein microarray-based testing of recombinantly expressed CSFderived antibodies against MS-associated viruses. Sequence analysis, a nity measurements, and the crystal structure of the EBNA1-peptide epitope in complex with the autoreactive Fab fragment allowed for tracking the development of the naïve EBNA1-restricted antibody to a mature EBNA1/GlialCAM crossreactive antibody. Molecular mimicry is facilitated by a post-translational modi cation of GlialCAM. EBNA1 immunization exacerbates the mouse model of MS and anti-EBNA1/GlialCAM antibodies are prevalent in MS patients. Our results provide a mechanistic link for the association between MS and EBV, and could guide the development of novel MS therapies. Main TextThe presence of oligoclonal bands (OCB) in cerebrospinal uid (CSF) and the e cacy of B cell depleting therapies emphasize the importance of B cells in the pathobiology of multiple sclerosis (MS) 2 . Anti-viral antibodies against mumps, measles, varicella-zoster, and Epstein-Barr Virus (EBV) are often present in MS 4,5 , but their relevance is unclear. Anti-EBV antibody titers in over 99% of MS patients provide evidence for an epidemiological link between MS and EBV 6 . Symptomatic infectious mononucleosis during EBV infection increases risk for MS 7 . Molecular mimicry between virus and self-antigens is a potential mechanism that might explain this association 8 . Antibodies against certain EBV nuclear antigen 1 (EBNA1) regions have been found in MS patients, including the region AA365-426 5,9-12 , which we describe here in our identi cation of molecular mimicry between EBNA1 and the glial cellular adhesion molecule GlialCAM. The potential signi cance of this mimicry in the pathophysiology of MS is described in detail.The B cell repertoire in MS CSF plasmablasts is highly clonal CSF and blood samples were obtained from MS patients during the onset of disease (clinically isolated syndrome, n=5) or an acute episode of relapsing-remitting MS (n=4). Patients with a CSF pleocytosis of >10 cells/µl were selected (Extended Data Table 1, Supplementary Discussion). Single B cells were sorted by ow cytometry (Extended Data Fig. 1a,b). Characteristic phenotypic differences of B cells in blood and CSF were observed 13,14 , including (i) high plasmablast (PB) counts in CS...
New treatments for multiple sclerosis (MS) focused on B cells have created an atmosphere of excitement in the MS community. B cells are now known to play a major role in disease, demonstrated by the highly impactful effect of a B cell-depleting antibody on controlling MS. The idea that a virus may play a role in the development of MS has a long history and is supported mostly by studies demonstrating a link between B cell-tropic Epstein-Barr virus (EBV) and disease onset. Efforts to develop antiviral strategies for treating MS are underway. Although gaps remain in our understanding of the etiology of MS, the role, if any, of viruses in propagating pathogenic immune responses deserves attention. HighlightsClinical studies show that depletion of B cells reduces disease burden in both relapsing-remitting and progressive multiple sclerosis (MS) patients.
The anti-angiogenic agent bevacizumab has been approved for the treatment of non-small cell lung cancer, although the survival benefit associated with this agent is marginal, and toxicities and cost are substantial. A recent screen for selective inhibitors of endothelial cell proliferation identified the oral anti-fungal drug itraconazole as a novel agent with potential anti-angiogenic activity. Here we define and characterize the anti-angiogenic and anti-cancer activities of itraconazole in relevant preclinical models of angiogenesis and lung cancer. Itraconazole consistently demonstrated potent, specific, and dose-dependent inhibition of endothelial cell proliferation, migration, and tube formation in response to both vascular endothelial growth factor (VEGF)- and basic fibroblast growth factor (bFGF)-mediated angiogenic stimulation. In vivo, using primary xenograft models of human non-small cell lung cancer, oral itraconazole showed single agent growth-inhibitory activity associated with induction of tumor HIF1α expression and marked inhibition of tumor vascularity. Itraconazole significantly enhanced the anti-tumor efficacy of the chemotherapeutic agent cisplatin in the same model systems. Taken together, these data suggest that itraconazole has potent and selective inhibitory activity against multiple key aspects of tumor-associated angiogenesis in vitro and in vivo, and strongly support clinical translation of its use. Based on these observations we have initiated a randomized phase II study comparing the efficacy of standard cytotoxic therapy with or without daily oral itraconazole in patients with recurrent metastatic non-small cell lung cancer.
Validation of the Hsp70–Bag3 Protein–Protein Interaction as a Potential Therapeutic Target in Cancer
Heat shock protein 70 (Hsp70) is a stress-inducible molecular chaperone that is required for cancer development at several steps. Targeting the active site of Hsp70 has proven relatively challenging, driving interest in alternative approaches. Hsp70 collaborates with the Bcl2-associated athanogene 3 (Bag3) to promote cell survival through multiple pathways, including FoxM1. Therefore, inhibitors of the Hsp70-Bag3 protein-protein interaction (PPI) may provide a non-canonical way to target this chaperone. We report that JG-98, an allosteric inhibitor of this PPI, indeed has anti-proliferative activity (EC50 values between 0.3 and 4 μM) across cancer cell lines from multiple origins. JG-98 destabilized FoxM1 and relieved suppression of downstream effectors, including p21 and p27. Based on these findings, JG-98 was evaluated in mice for pharmacokinetics, tolerability and activity in two xenograft models. The results suggested that the Hsp70-Bag3 interaction may be a promising, new target for anti-cancer therapy.
Multiple sclerosis (MS) is a heterogenous autoimmune disease in which autoreactive lymphocytes attack the myelin sheath of the central nervous system (CNS). B lymphocytes in the cerebrospinal fluid (CSF) of MS patients contribute to inflammation and secrete oligoclonal immunoglobulins. Epstein-Barr virus (EBV) infection has been linked to MS epidemiologically, but its pathological role remains unclear. Here we demonstrate high-affinity molecular mimicry between the EBV transcription factor EBNA1 and the CNS protein GlialCAM, and provide structural and in-vivo functional evidence for its relevance. A cross-reactive CSF-derived antibody was initially identified by single-cell sequencing of the paired-chain B cell repertoire of MS blood and CSF, followed by protein microarray-based testing of recombinantly expressed CSF-derived antibodies against MS-associated viruses. Sequence analysis, affinity measurements, and the crystal structure of the EBNA1-peptide epitope in complex with the autoreactive Fab fragment allowed for tracking the development of the naïve EBNA1-restricted antibody to a mature EBNA1/GlialCAM cross-reactive antibody. Molecular mimicry is facilitated by a post-translational modification of GlialCAM. EBNA1 immunization exacerbates the mouse model of MS and anti-EBNA1/GlialCAM antibodies are prevalent in MS patients. Our results provide a mechanistic link for the association between MS and EBV, and could guide the development of novel MS therapies.
Role of the funding source:The funders of the study had no role in the study design, data collection, data analysis, data interpretation, or the writing of the manuscript. The corresponding authors had full access to all the data in the study and had final responsibility for the decision to submit for publication. Conflict of interest: MPP has received consulting fees and research funding from Atara Biotherapeutics and is a member of the Neurology Clinical Advisory Panel of Atara Biotherapeutics. CS has received consulting fees from Atara Biotherapeutics. SB is a member of the advisory boards of Roche, Sanofi Genzyme, Merck, and Teva. KAG has received personal fees from Roche and travel support from Sanofi Aventis. AS has received educational and travel support from Merck Serono Australia. KDH is a member of the advisory boards of Merck Serono Australia, Biogen Australia, and Roche Australia. BTA is an employee of, and owns equity shares in, Atara Biotherapeutics. SRB has received a license fee payment from Atara Biotherapeutics. AC has received a consulting fee from Sanofi Genzyme. RK is a consultant and member of the scientific advisory board of Atara Biotherapeutics and has received a license fee payment and research funding from Atara Biotherapeutics.
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