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3. Musashi-2 (MSI2) supports TGF-β signaling and inhibits claudins to promote non-small cell lung cancer (NSCLC) metastasis

Author

Kudinov A., Deneka A., Nikonova A., Beck T., Ahn Y., Liu X., Martinez C., Schultz F., Reynolds S., Yang D., Cai K., Yaghmour K., Baker K., Egleston B., Nicolas E., Chikwem A., Andrianov G., Singh S., Borghaei H., Serebriiskii I., Gibbons D., Kurie J., Golemis E., Boumber Y., Kudinov A., Deneka A., Nikonova A., Beck T., Ahn Y., Liu X., Martinez C., Schultz F., Reynolds S., Yang D., Cai K., Yaghmour K., Baker K., Egleston B., Nicolas E., Chikwem A., Andrianov G., Singh S., Borghaei H., Serebriiskii I., Gibbons D., Kurie J., Golemis E., and Boumber Y.

Abstract

© 2016, National Academy of Sciences. All rights reserved.Non-small cell lung cancer (NSCLC) has a 5-y survival rate of ∼16%, with most deaths associated with uncontrolled metastasis. We screened for stem cell identity-related genes preferentially expressed in a panel of cell lines with high versus low metastatic potential, derived from NSCLC tumors of KrasLA1/+;P53R172HΔG/+ (KP) mice. The Musashi-2 (MSI2) protein, a regulator of mRNA translation, was consistently elevated in metastasis-competent cell lines. MSI2 was overexpressed in 123 human NSCLC tumor specimens versus normal lung, whereas higher expression was associated with disease progression in an independent set of matched normal/primary tumor/lymph node specimens. Depletion of MSI2 in multiple independent metastatic murine and human NSCLC cell lines reduced invasion and metastatic potential, independent of an effect on proliferation. MSI2 depletion significantly induced expression of proteins associated with epithelial identity, including tight junction proteins [claudin 3 (CLDN3), claudin 5 (CLDN5), and claudin 7 (CLDN7)] and down-regulated direct translational targets associated with epithelial-mesenchymal transition, including the TGF-β receptor 1 (TGFβR1), the small mothers against decapentaplegic homolog 3 (SMAD3), and the zinc finger proteins SNAI1 (SNAIL) and SNAI2 (SLUG). Overexpression of TGFβRI reversed the loss of invasion associated with MSI2 depletion, whereas overexpression of CLDN7 inhibited MSI2-dependent invasion. Unexpectedly, MSI2 depletion reduced E-cadherin expression, reflecting a mixed epithelial-mesenchymal phenotype. Based on this work, we propose that MSI2 provides essential support for TGFβR1/SMAD3 signaling and contributes to invasive adenocarcinoma of the lung and may serve as a predictive biomarker of NSCLC aggressiveness.

4. Genetic Variants That Predispose to DNA Double-Strand Breaks in Lymphocytes from a Subset of Patients with Familial Colorectal Carcinomas

Author

Arora S., Yan H., Cho I., Fan H., Luo B., Gai X., Bodian D., Vockley J., Zhou Y., Handorf E., Egleston B., Andrake M., Nicolas E., Serebriiskii I., Yen T., Hall M., Golemis E., Enders G., Arora S., Yan H., Cho I., Fan H., Luo B., Gai X., Bodian D., Vockley J., Zhou Y., Handorf E., Egleston B., Andrake M., Nicolas E., Serebriiskii I., Yen T., Hall M., Golemis E., and Enders G.

Abstract

© 2015 AGA Institute. Background & Aims DNA structural lesions are prevalent in sporadic colorectal cancer. Therefore, we proposed that gene variants that predispose to DNA double-strand breaks (DSBs) would be found in patients with familial colorectal carcinomas of an undefined genetic basis (UFCRC). Methods We collected primary T cells from 25 patients with UFCRC and matched patients without colorectal cancer (controls) and assayed for DSBs. We performed exome sequence analyses of germline DNA from 20 patients with UFCRC and 5 undiagnosed patients with polyposis. The prevalence of identified variants in genes linked to DNA integrity was compared with that of individuals without a family history of cancer. The effects of representative variants found to be associated with UFCRC was confirmed in functional assays with HCT116 cells. Results Primary T cells from most patients with UFCRC had increased levels of the DSB marker γ(phosphorylated)histone2AX (γH2AX) after treatment with DNA damaging agents, compared with T cells from controls (P <.001). Exome sequence analysis identified a mean 1.4 rare variants per patient that were predicted to disrupt functions of genes relevant to DSBs. Controls (from public databases) had a much lower frequency of variants in the same genes (P <.001). Knockdown of representative variant genes in HCT116 CRC cells increased γH2AX. A detailed analysis of immortalized patient-derived B cells that contained variants in the Werner syndrome, RecQ helicase-like gene (WRN, encoding T705I), and excision repair cross-complementation group 6 (ERCC6, encoding N180Y) showed reduced levels of these proteins and increased DSBs, compared with B cells from controls. This phenotype was rescued by exogenous expression of WRN or ERCC6. Direct analysis of the recombinant variant proteins confirmed defective enzymatic activities. Conclusions These results provide evidence that defects in suppression of DSBs underlie some cases of UFCRC; these can be identifi

5. Musashi-2 (MSI2) supports TGF-β signaling and inhibits claudins to promote non-small cell lung cancer (NSCLC) metastasis

Author

Kudinov A., Deneka A., Nikonova A., Beck T., Ahn Y., Liu X., Martinez C., Schultz F., Reynolds S., Yang D., Cai K., Yaghmour K., Baker K., Egleston B., Nicolas E., Chikwem A., Andrianov G., Singh S., Borghaei H., Serebriiskii I., Gibbons D., Kurie J., Golemis E., Boumber Y., Kudinov A., Deneka A., Nikonova A., Beck T., Ahn Y., Liu X., Martinez C., Schultz F., Reynolds S., Yang D., Cai K., Yaghmour K., Baker K., Egleston B., Nicolas E., Chikwem A., Andrianov G., Singh S., Borghaei H., Serebriiskii I., Gibbons D., Kurie J., Golemis E., and Boumber Y.

Abstract

© 2016, National Academy of Sciences. All rights reserved.Non-small cell lung cancer (NSCLC) has a 5-y survival rate of ∼16%, with most deaths associated with uncontrolled metastasis. We screened for stem cell identity-related genes preferentially expressed in a panel of cell lines with high versus low metastatic potential, derived from NSCLC tumors of KrasLA1/+;P53R172HΔG/+ (KP) mice. The Musashi-2 (MSI2) protein, a regulator of mRNA translation, was consistently elevated in metastasis-competent cell lines. MSI2 was overexpressed in 123 human NSCLC tumor specimens versus normal lung, whereas higher expression was associated with disease progression in an independent set of matched normal/primary tumor/lymph node specimens. Depletion of MSI2 in multiple independent metastatic murine and human NSCLC cell lines reduced invasion and metastatic potential, independent of an effect on proliferation. MSI2 depletion significantly induced expression of proteins associated with epithelial identity, including tight junction proteins [claudin 3 (CLDN3), claudin 5 (CLDN5), and claudin 7 (CLDN7)] and down-regulated direct translational targets associated with epithelial-mesenchymal transition, including the TGF-β receptor 1 (TGFβR1), the small mothers against decapentaplegic homolog 3 (SMAD3), and the zinc finger proteins SNAI1 (SNAIL) and SNAI2 (SLUG). Overexpression of TGFβRI reversed the loss of invasion associated with MSI2 depletion, whereas overexpression of CLDN7 inhibited MSI2-dependent invasion. Unexpectedly, MSI2 depletion reduced E-cadherin expression, reflecting a mixed epithelial-mesenchymal phenotype. Based on this work, we propose that MSI2 provides essential support for TGFβR1/SMAD3 signaling and contributes to invasive adenocarcinoma of the lung and may serve as a predictive biomarker of NSCLC aggressiveness.

6. Genetic Variants That Predispose to DNA Double-Strand Breaks in Lymphocytes from a Subset of Patients with Familial Colorectal Carcinomas

Author

Arora S., Yan H., Cho I., Fan H., Luo B., Gai X., Bodian D., Vockley J., Zhou Y., Handorf E., Egleston B., Andrake M., Nicolas E., Serebriiskii I., Yen T., Hall M., Golemis E., Enders G., Arora S., Yan H., Cho I., Fan H., Luo B., Gai X., Bodian D., Vockley J., Zhou Y., Handorf E., Egleston B., Andrake M., Nicolas E., Serebriiskii I., Yen T., Hall M., Golemis E., and Enders G.

Abstract

© 2015 AGA Institute. Background & Aims DNA structural lesions are prevalent in sporadic colorectal cancer. Therefore, we proposed that gene variants that predispose to DNA double-strand breaks (DSBs) would be found in patients with familial colorectal carcinomas of an undefined genetic basis (UFCRC). Methods We collected primary T cells from 25 patients with UFCRC and matched patients without colorectal cancer (controls) and assayed for DSBs. We performed exome sequence analyses of germline DNA from 20 patients with UFCRC and 5 undiagnosed patients with polyposis. The prevalence of identified variants in genes linked to DNA integrity was compared with that of individuals without a family history of cancer. The effects of representative variants found to be associated with UFCRC was confirmed in functional assays with HCT116 cells. Results Primary T cells from most patients with UFCRC had increased levels of the DSB marker γ(phosphorylated)histone2AX (γH2AX) after treatment with DNA damaging agents, compared with T cells from controls (P <.001). Exome sequence analysis identified a mean 1.4 rare variants per patient that were predicted to disrupt functions of genes relevant to DSBs. Controls (from public databases) had a much lower frequency of variants in the same genes (P <.001). Knockdown of representative variant genes in HCT116 CRC cells increased γH2AX. A detailed analysis of immortalized patient-derived B cells that contained variants in the Werner syndrome, RecQ helicase-like gene (WRN, encoding T705I), and excision repair cross-complementation group 6 (ERCC6, encoding N180Y) showed reduced levels of these proteins and increased DSBs, compared with B cells from controls. This phenotype was rescued by exogenous expression of WRN or ERCC6. Direct analysis of the recombinant variant proteins confirmed defective enzymatic activities. Conclusions These results provide evidence that defects in suppression of DSBs underlie some cases of UFCRC; these can be identifi

7. A novel HSP90 inhibitor-drug conjugate to SN38 is highly effective in small cell lung cancer

Author

Gaponova A., Nikonova A., Deneka A., Kopp M., Kudinov A., Skobeleva N., Khazak V., Ogawa L., Cai K., Duncan K., Duncan J., Egleston B., Proia D., Boumber Y., Golemis E., Gaponova A., Nikonova A., Deneka A., Kopp M., Kudinov A., Skobeleva N., Khazak V., Ogawa L., Cai K., Duncan K., Duncan J., Egleston B., Proia D., Boumber Y., and Golemis E.

Abstract

©2016 AACR.Purpose: Small cell lung cancer (SCLC) is a highly aggressive disease representing 12% to 13% of total lung cancers, with median survival of <2 years. No targeted therapies have proven effective in SCLC. Although most patients respond initially to cytotoxic chemotherapies, resistance rapidly emerges, response to second-line agents is limited, and dose-limiting toxicities (DLT) are a major issue. This study performs preclinical evaluation of a new compound, STA-8666, in SCLC. Experimental Design: To avoid DLT for useful cytotoxic agents, the recently developed drug STA-8666 combines a chemical moiety targeting active HSP90 (concentrated in tumors) fused via cleavable linker to SN38, the active metabolite of irinotecan. We compare potency and mechanism of action of STA-8666 and irinotecan in vitro and in vivo. Results: In two SCLC xenograft and patient-derived xenograft models, STA-8666 was tolerated without side effects up to 150 mg/kg. At this dose, STA-8666 controlled or eliminated established tumors whether used in a first-line setting or in tumors that had progressed following treatment on standard first- and second-line agents for SCLC. At 50 mg/kg, STA-8666 strongly enhanced the action of carboplatin. Pharmacokinetic profiling confirmed durable STA-8666 exposure in tumors compared with irinotecan. STA-8666 induced a more rapid, robust, and stable induction of cell-cycle arrest, expression of signaling proteins associated with DNA damage and cell-cycle checkpoints, and apoptosis in vitro and in vivo, in comparison with irinotecan. Conclusions: Together, these results strongly support clinical development of STA-8666 for use in the first- or second-line setting for SCLC.

8. Systematic evaluation of underlying defects in DNA repair as an approach to case-only assessment of familial prostate cancer

Author

Nicolas E., Arora S., Zhou Y., Serebriiskii I., Andrake M., Handorf E., Bodian D., Vockley J., Dunbrack R., Ross E., Egleston B., Hall M., Golemis E., Giri V., Daly M., Nicolas E., Arora S., Zhou Y., Serebriiskii I., Andrake M., Handorf E., Bodian D., Vockley J., Dunbrack R., Ross E., Egleston B., Hall M., Golemis E., Giri V., and Daly M.

Abstract

Risk assessment for prostate cancer is challenging due to its genetic heterogeneity. In this study, our goal was to develop an operational framework to select and evaluate gene variants that may contribute to familial prostate cancer risk. Drawing on orthogonal sources, we developed a candidate list of genes relevant to prostate cancer, then analyzed germline exomes from 12 case-only prostate cancer patients from high-risk families to identify patterns of protein-damaging gene variants. We described an average of 5 potentially disruptive variants in each individual and annotated them in the context of public databases representing human variation. Novel damaging variants were found in several genes of relevance to prostate cancer. Almost all patients had variants associated with defects in DNA damage response. Many also had variants linked to androgen signaling. Treatment of primary T-lymphocytes from these prostate cancer patients versus controls with DNA damaging agents showed elevated levels of the DNA double strand break (DSB) marker ?H2AX (p < 0.05), supporting the idea of an underlying defect in DNA repair. This work suggests the value of focusing on underlying defects in DNA damage in familial prostate cancer risk assessment and demonstrates an operational framework for exome sequencing in case-only prostate cancer genetic evaluation.

9. Opposing effects of inhibitors of Aurora-A and EGFR in autosomal-dominant polycystic kidney disease

Author

Nikonova A., Deneka A., Eckman L., Kopp M., Hensley H., Egleston B., Golemis E., Nikonova A., Deneka A., Eckman L., Kopp M., Hensley H., Egleston B., and Golemis E.

Abstract

© 2015 Nikonova, Deneka, Eckman, Kopp, Hensley, Egleston and Golemis. Aurora-A kinase (AURKA) overexpression in numerous tumors induces aneuploidy, in part because of cytokinetic defects. Alisertib and other small-molecule inhibitors targeting AURKA are effective in some patients as monotherapies or combination therapies. Epidermal growth factor receptor (EGFR) pro-proliferative signaling activity is commonly elevated in cancer, and the EGFR inhibitor erlotinib is commonly used as a standard of care agent for cancer. An erlotinib/alisertib combination therapy is currently under assessment in clinical trials, following pre-clinical studies that indicated synergy of these drugs in cancer. We were interested in further exploring the activity of this drug combination. Beyond well-established functions for AURKA in mitotic progression, additional non-mitotic AURKA functions include control of ciliary stability and calcium signaling. Interestingly, alisertib exacerbates the disease phenotype in mouse models for autosomal-dominant polycystic kidney disease (ADPKD), a common inherited syndrome induced by aberrant signaling from PKD1 and PKD2, cilia-localized proteins that have calcium channel activity. EGFR is also more active in ADPKD, making erlotinib also of potential interest in this disease setting. In this study, we have explored the interaction of alisertib and erlotinib in an ADPKD model. These experiments indicated erlotinib-restrained cystogenesis, opposing alisertib action. Erlotinib also interacted with alisertib to regulate proliferative signaling proteins, albeit in a complicated manner. Results suggest a nuanced role of AURKA signaling in different pathogenic conditions and inform the clinical use of AURKA inhibitors in cancer patients with comorbidities.

10. A novel HSP90 inhibitor-drug conjugate to SN38 is highly effective in small cell lung cancer

Author

Gaponova A., Nikonova A., Deneka A., Kopp M., Kudinov A., Skobeleva N., Khazak V., Ogawa L., Cai K., Duncan K., Duncan J., Egleston B., Proia D., Boumber Y., Golemis E., Gaponova A., Nikonova A., Deneka A., Kopp M., Kudinov A., Skobeleva N., Khazak V., Ogawa L., Cai K., Duncan K., Duncan J., Egleston B., Proia D., Boumber Y., and Golemis E.

Abstract

©2016 AACR.Purpose: Small cell lung cancer (SCLC) is a highly aggressive disease representing 12% to 13% of total lung cancers, with median survival of <2 years. No targeted therapies have proven effective in SCLC. Although most patients respond initially to cytotoxic chemotherapies, resistance rapidly emerges, response to second-line agents is limited, and dose-limiting toxicities (DLT) are a major issue. This study performs preclinical evaluation of a new compound, STA-8666, in SCLC. Experimental Design: To avoid DLT for useful cytotoxic agents, the recently developed drug STA-8666 combines a chemical moiety targeting active HSP90 (concentrated in tumors) fused via cleavable linker to SN38, the active metabolite of irinotecan. We compare potency and mechanism of action of STA-8666 and irinotecan in vitro and in vivo. Results: In two SCLC xenograft and patient-derived xenograft models, STA-8666 was tolerated without side effects up to 150 mg/kg. At this dose, STA-8666 controlled or eliminated established tumors whether used in a first-line setting or in tumors that had progressed following treatment on standard first- and second-line agents for SCLC. At 50 mg/kg, STA-8666 strongly enhanced the action of carboplatin. Pharmacokinetic profiling confirmed durable STA-8666 exposure in tumors compared with irinotecan. STA-8666 induced a more rapid, robust, and stable induction of cell-cycle arrest, expression of signaling proteins associated with DNA damage and cell-cycle checkpoints, and apoptosis in vitro and in vivo, in comparison with irinotecan. Conclusions: Together, these results strongly support clinical development of STA-8666 for use in the first- or second-line setting for SCLC.

11. Opposing effects of inhibitors of Aurora-A and EGFR in autosomal-dominant polycystic kidney disease

Author

Nikonova A., Deneka A., Eckman L., Kopp M., Hensley H., Egleston B., Golemis E., Nikonova A., Deneka A., Eckman L., Kopp M., Hensley H., Egleston B., and Golemis E.

Abstract

© 2015 Nikonova, Deneka, Eckman, Kopp, Hensley, Egleston and Golemis. Aurora-A kinase (AURKA) overexpression in numerous tumors induces aneuploidy, in part because of cytokinetic defects. Alisertib and other small-molecule inhibitors targeting AURKA are effective in some patients as monotherapies or combination therapies. Epidermal growth factor receptor (EGFR) pro-proliferative signaling activity is commonly elevated in cancer, and the EGFR inhibitor erlotinib is commonly used as a standard of care agent for cancer. An erlotinib/alisertib combination therapy is currently under assessment in clinical trials, following pre-clinical studies that indicated synergy of these drugs in cancer. We were interested in further exploring the activity of this drug combination. Beyond well-established functions for AURKA in mitotic progression, additional non-mitotic AURKA functions include control of ciliary stability and calcium signaling. Interestingly, alisertib exacerbates the disease phenotype in mouse models for autosomal-dominant polycystic kidney disease (ADPKD), a common inherited syndrome induced by aberrant signaling from PKD1 and PKD2, cilia-localized proteins that have calcium channel activity. EGFR is also more active in ADPKD, making erlotinib also of potential interest in this disease setting. In this study, we have explored the interaction of alisertib and erlotinib in an ADPKD model. These experiments indicated erlotinib-restrained cystogenesis, opposing alisertib action. Erlotinib also interacted with alisertib to regulate proliferative signaling proteins, albeit in a complicated manner. Results suggest a nuanced role of AURKA signaling in different pathogenic conditions and inform the clinical use of AURKA inhibitors in cancer patients with comorbidities.

12. Systematic evaluation of underlying defects in DNA repair as an approach to case-only assessment of familial prostate cancer

Author

Nicolas E., Arora S., Zhou Y., Serebriiskii I., Andrake M., Handorf E., Bodian D., Vockley J., Dunbrack R., Ross E., Egleston B., Hall M., Golemis E., Giri V., Daly M., Nicolas E., Arora S., Zhou Y., Serebriiskii I., Andrake M., Handorf E., Bodian D., Vockley J., Dunbrack R., Ross E., Egleston B., Hall M., Golemis E., Giri V., and Daly M.

Abstract

Risk assessment for prostate cancer is challenging due to its genetic heterogeneity. In this study, our goal was to develop an operational framework to select and evaluate gene variants that may contribute to familial prostate cancer risk. Drawing on orthogonal sources, we developed a candidate list of genes relevant to prostate cancer, then analyzed germline exomes from 12 case-only prostate cancer patients from high-risk families to identify patterns of protein-damaging gene variants. We described an average of 5 potentially disruptive variants in each individual and annotated them in the context of public databases representing human variation. Novel damaging variants were found in several genes of relevance to prostate cancer. Almost all patients had variants associated with defects in DNA damage response. Many also had variants linked to androgen signaling. Treatment of primary T-lymphocytes from these prostate cancer patients versus controls with DNA damaging agents showed elevated levels of the DNA double strand break (DSB) marker ?H2AX (p < 0.05), supporting the idea of an underlying defect in DNA repair. This work suggests the value of focusing on underlying defects in DNA damage in familial prostate cancer risk assessment and demonstrates an operational framework for exome sequencing in case-only prostate cancer genetic evaluation.

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