Your search keyword '"Jayasekara W.S.N."' showing total 7 results

1. Atypical teratoid rhabdoid tumours are susceptible to panobinostat-mediated differentiation therapy.

Author

Chong W.C., Jayasekara W.S.N., Vaghjiani V.G., Parackal S., Sun C., Popovski D., Algar E.M., Firestein R., Wood P.J., Khan S., Huang A., Ashley D.M., Downie P., Cain J.E., Chong W.C., Jayasekara W.S.N., Vaghjiani V.G., Parackal S., Sun C., Popovski D., Algar E.M., Firestein R., Wood P.J., Khan S., Huang A., Ashley D.M., Downie P., and Cain J.E.

Abstract

Atypical teratoid rhabdoid tumour (ATRT) is a rare but highly aggressive undifferenti-ated solid tumour arising in the central nervous system and predominantly affecting infants and young children. ATRT is exclusively characterized by the inactivation of SMARCB1, a member of the SWI/SNF chromatin remodelling complex that is essential for the regulation of large sets of genes required for normal development and differentiation. Histone deacetylase inhibitors (HDACi) are a promising anticancer therapy and are able to mimic the normal acetylation functions of SMARCB1 in SMARCB1-deficient cells and drive multilineage differentiation in extracranial rhabdoid tumours. However, the potential efficacy of HDACi in ATRT is unknown. Here, we show that human ATRT cells are highly responsive to the HDACi panobinostat and that sustained treatment leads to growth arrest, increased cell senescence, decreased clonogenicity and induction of a neurogenesis gene-expression profile. Furthermore, in an orthotopic ATRT xenograft model, continuous panobinostat treatment inhibits tumour growth, increases survival and drives neuronal differentiation as shown by the expression of the neuronal marker, TUJ1. Collectively, this preclinical study supports the therapeutic potential of panobinostat-mediated differentiation therapy for ATRT.Copyright © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

2. Deep multi-region whole-genome sequencing reveals heterogeneity and gene-by-environment interactions in treatment-naive, metastatic lung cancer.

Author

Asselin-Labat M.-L., Cain J.E., Papenfuss A.T., Cowley M.J., Watkins D.N., Leong T.L., Gayevskiy V., Steinfort D.P., De Massy M.R., Gonzalez-Rajal A., Marini K.D., Stone E., Chin V., Havryk A., Plit M., Irving L.B., Jennings B.R., McCloy R.A., Jayasekara W.S.N., Alamgeer M., Boolell V., Field A., Russell P.A., Kumar B., Gough D.J., Szczepny A., Ganju V., Rossello F.J., Asselin-Labat M.-L., Cain J.E., Papenfuss A.T., Cowley M.J., Watkins D.N., Leong T.L., Gayevskiy V., Steinfort D.P., De Massy M.R., Gonzalez-Rajal A., Marini K.D., Stone E., Chin V., Havryk A., Plit M., Irving L.B., Jennings B.R., McCloy R.A., Jayasekara W.S.N., Alamgeer M., Boolell V., Field A., Russell P.A., Kumar B., Gough D.J., Szczepny A., Ganju V., and Rossello F.J.

Abstract

Our understanding of genomic heterogeneity in lung cancer is largely based on the analysis of early-stage surgical specimens. Here we used endoscopic sampling of paired primary and intrathoracic metastatic tumors from 11 lung cancer patients to map genomic heterogeneity inoperable lung cancer with deep whole-genome sequencing. Intra-patient heterogeneity in driver or targetable mutations was predominantly in the form of copy number gain. Private mutation signatures, including patterns consistent with defects in homologous recombination, were highly variable both within and between patients. Irrespective of histotype, we observed a smaller than expected number of private mutations, suggesting that ancestral clones accumulated large mutation burdens immediately prior to metastasis. Single-region whole-genome sequencing of from 20 patients showed that tumors in ever-smokers with the strongest tobacco signatures were associated with germline variants in genes implicated in the repair of cigarette-induced DNA damage. Our results suggest that lung cancer precursors in ever-smokers accumulate large numbers of mutations prior to the formation of frank malignancy followed by rapid metastatic spread. In advanced lung cancer, germline variants in DNA repair genes may interact with the airway environment to influence the pattern of founder mutations, whereas similar interactions with the tumor microenvironment may play a role in the acquisition of mutations following metastasis.Copyright © 2018, The Author(s).

Published

2019

3. Deep multi-region whole-genome sequencing reveals heterogeneity and gene-by-environment interactions in treatment-naive, metastatic lung cancer.

Author

Asselin-Labat M.-L., Cain J.E., Papenfuss A.T., Cowley M.J., Watkins D.N., Leong T.L., Gayevskiy V., Steinfort D.P., De Massy M.R., Gonzalez-Rajal A., Marini K.D., Stone E., Chin V., Havryk A., Plit M., Irving L.B., Jennings B.R., McCloy R.A., Jayasekara W.S.N., Alamgeer M., Boolell V., Field A., Russell P.A., Kumar B., Gough D.J., Szczepny A., Ganju V., Rossello F.J., Asselin-Labat M.-L., Cain J.E., Papenfuss A.T., Cowley M.J., Watkins D.N., Leong T.L., Gayevskiy V., Steinfort D.P., De Massy M.R., Gonzalez-Rajal A., Marini K.D., Stone E., Chin V., Havryk A., Plit M., Irving L.B., Jennings B.R., McCloy R.A., Jayasekara W.S.N., Alamgeer M., Boolell V., Field A., Russell P.A., Kumar B., Gough D.J., Szczepny A., Ganju V., and Rossello F.J.

Abstract

Our understanding of genomic heterogeneity in lung cancer is largely based on the analysis of early-stage surgical specimens. Here we used endoscopic sampling of paired primary and intrathoracic metastatic tumors from 11 lung cancer patients to map genomic heterogeneity inoperable lung cancer with deep whole-genome sequencing. Intra-patient heterogeneity in driver or targetable mutations was predominantly in the form of copy number gain. Private mutation signatures, including patterns consistent with defects in homologous recombination, were highly variable both within and between patients. Irrespective of histotype, we observed a smaller than expected number of private mutations, suggesting that ancestral clones accumulated large mutation burdens immediately prior to metastasis. Single-region whole-genome sequencing of from 20 patients showed that tumors in ever-smokers with the strongest tobacco signatures were associated with germline variants in genes implicated in the repair of cigarette-induced DNA damage. Our results suggest that lung cancer precursors in ever-smokers accumulate large numbers of mutations prior to the formation of frank malignancy followed by rapid metastatic spread. In advanced lung cancer, germline variants in DNA repair genes may interact with the airway environment to influence the pattern of founder mutations, whereas similar interactions with the tumor microenvironment may play a role in the acquisition of mutations following metastasis.Copyright © 2018, The Author(s).

Published

2019

4. The role of canonical and non-canonical Hedgehog signaling in tumor progression in a mouse model of small cell lung cancer.

Author

Park K., McCloy R.A., Cochrane C.R., Ganju V., Cooper W.A., Sage J., Watkins D.N., Burgess A., Cain J.E., Peacock C.D., Szczepny A., Rogers S., Jayasekara W.S.N., Park K., McCloy R.A., Cochrane C.R., Ganju V., Cooper W.A., Sage J., Watkins D.N., Burgess A., Cain J.E., Peacock C.D., Szczepny A., Rogers S., and Jayasekara W.S.N.

Abstract

Hedgehog (Hh) signaling regulates cell fate and self-renewal in development and cancer. Canonical Hh signaling is mediated by Hh ligand binding to the receptor Patched (Ptch), which in turn activates Gli-mediated transcription through Smoothened (Smo), the molecular target of the Hh pathway inhibitors used as cancer therapeutics. Small cell lung cancer (SCLC) is a common, aggressive malignancy with universally poor prognosis. Although preclinical studies have shown that Hh inhibitors block the self-renewal capacity of SCLC cells, the lack of activating pathway mutations have cast doubt over the significance of these observations. In particular, the existence of autocrine, ligand-dependent Hh signaling in SCLC has been disputed. In a conditional Tp53;Rb1 mutant mouse model of SCLC, we now demonstrate a requirement for the Hh ligand Sonic Hedgehog (Shh) for the progression of SCLC. Conversely, we show that conditional Shh overexpression activates canonical Hh signaling in SCLC cells, and markedly accelerates tumor progression. When compared to mouse SCLC tumors expressing an activating, ligand-independent Smo mutant, tumors overexpressing Shh exhibited marked chromosomal instability and Smoothened-independent upregulation of Cyclin B1, a putative non-canonical arm of the Hh pathway. In turn, we show that overexpression of Cyclin B1 induces chromosomal instability in mouse embryonic fibroblasts lacking both Tp53 and Rb1. These results provide strong support for an autocrine, ligand-dependent model of Hh signaling in SCLC pathogenesis, and reveal a novel role for non-canonical Hh signaling through the induction of chromosomal instability.Copyright © The Autor(s) 2017.

Published

2017

5. The role of canonical and non-canonical Hedgehog signaling in tumor progression in a mouse model of small cell lung cancer.

Author

Park K., McCloy R.A., Cochrane C.R., Ganju V., Cooper W.A., Sage J., Watkins D.N., Burgess A., Cain J.E., Peacock C.D., Szczepny A., Rogers S., Jayasekara W.S.N., Park K., McCloy R.A., Cochrane C.R., Ganju V., Cooper W.A., Sage J., Watkins D.N., Burgess A., Cain J.E., Peacock C.D., Szczepny A., Rogers S., and Jayasekara W.S.N.

Abstract

Hedgehog (Hh) signaling regulates cell fate and self-renewal in development and cancer. Canonical Hh signaling is mediated by Hh ligand binding to the receptor Patched (Ptch), which in turn activates Gli-mediated transcription through Smoothened (Smo), the molecular target of the Hh pathway inhibitors used as cancer therapeutics. Small cell lung cancer (SCLC) is a common, aggressive malignancy with universally poor prognosis. Although preclinical studies have shown that Hh inhibitors block the self-renewal capacity of SCLC cells, the lack of activating pathway mutations have cast doubt over the significance of these observations. In particular, the existence of autocrine, ligand-dependent Hh signaling in SCLC has been disputed. In a conditional Tp53;Rb1 mutant mouse model of SCLC, we now demonstrate a requirement for the Hh ligand Sonic Hedgehog (Shh) for the progression of SCLC. Conversely, we show that conditional Shh overexpression activates canonical Hh signaling in SCLC cells, and markedly accelerates tumor progression. When compared to mouse SCLC tumors expressing an activating, ligand-independent Smo mutant, tumors overexpressing Shh exhibited marked chromosomal instability and Smoothened-independent upregulation of Cyclin B1, a putative non-canonical arm of the Hh pathway. In turn, we show that overexpression of Cyclin B1 induces chromosomal instability in mouse embryonic fibroblasts lacking both Tp53 and Rb1. These results provide strong support for an autocrine, ligand-dependent model of Hh signaling in SCLC pathogenesis, and reveal a novel role for non-canonical Hh signaling through the induction of chromosomal instability.Copyright © The Autor(s) 2017.

Published

2017

6. Low-dose histone deacetylase inhibitor treatment leads to tumor growth arrest and multi-lineage differentiation of malignant rhabdoid tumors.

Author

Watkins D.N., Downie P., Cain J.E., Ashley D.M., Muscat A., Popovski D., Jayasekara W.S.N., Rossello F.J., Ferguson M., Marini K.D., Alamgeer M., Algar E.M., Watkins D.N., Downie P., Cain J.E., Ashley D.M., Muscat A., Popovski D., Jayasekara W.S.N., Rossello F.J., Ferguson M., Marini K.D., Alamgeer M., and Algar E.M.

Abstract

Purpose: Malignant rhabdoid tumor (MRT) and atypical teratoid rhabdoid tumors (ATRT) are rare aggressive undifferentiated tumors primarily affecting the kidney and CNS of infants and young children. MRT are almost exclusively characterized by homozygous deletion or inactivation of the chromatin remodeling gene SMARCB1. SMARCB1 protein loss leads to direct impairment of chromatin remodeling and we have previously reported a role for this protein in histone acetylation. This provided the rationale for investigating the therapeutic potential of histone deactylase inhibitors (HDACi) in MRT. Experimental Design: Whereas previously HDACis have been used at doses and schedules that induce cytotoxicity, in the current studies we have tested the hypothesis, both in vitro and in vivo, that sustained treatment of human MRT with lowdose HDACi can lead to sustained cell growth arrest and differentiation. Result(s): Sustained low-dose panobinostat (LBH589) treatment led to changes in cellular morphology associated with a marked increase in the induction of neural, renal, and osteoblast differentiation pathways. Genome-wide transcriptional profiling highlighted differential gene expression supporting multilineage differentiation. Using mouse xenograft models, sustained lowdose LBH589 treatment caused tumor growth arrest associated with tumor calcification detectable by X-ray imaging. Histological analysis of LBH589-treated tumors revealed significant regions of ossification, confirmed by Alizarin Red staining. Immunohistochemical analysis showed increased TUJ1 and PAX2 staining suggestive of neuronal and renal differentiation, respectively. Conclusion(s): Low-dose HDACi treatment can terminally differentiate MRT tumor cells and reduce their ability to self-renew. The use of low-dose HDACi as a novel therapeutic approach warrants further investigation.Copyright © 2016 American Association for Cancer Research.

Published

2016

7. Low-dose histone deacetylase inhibitor treatment leads to tumor growth arrest and multi-lineage differentiation of malignant rhabdoid tumors.

Author

Watkins D.N., Downie P., Cain J.E., Ashley D.M., Muscat A., Popovski D., Jayasekara W.S.N., Rossello F.J., Ferguson M., Marini K.D., Alamgeer M., Algar E.M., Watkins D.N., Downie P., Cain J.E., Ashley D.M., Muscat A., Popovski D., Jayasekara W.S.N., Rossello F.J., Ferguson M., Marini K.D., Alamgeer M., and Algar E.M.

Abstract

Purpose: Malignant rhabdoid tumor (MRT) and atypical teratoid rhabdoid tumors (ATRT) are rare aggressive undifferentiated tumors primarily affecting the kidney and CNS of infants and young children. MRT are almost exclusively characterized by homozygous deletion or inactivation of the chromatin remodeling gene SMARCB1. SMARCB1 protein loss leads to direct impairment of chromatin remodeling and we have previously reported a role for this protein in histone acetylation. This provided the rationale for investigating the therapeutic potential of histone deactylase inhibitors (HDACi) in MRT. Experimental Design: Whereas previously HDACis have been used at doses and schedules that induce cytotoxicity, in the current studies we have tested the hypothesis, both in vitro and in vivo, that sustained treatment of human MRT with lowdose HDACi can lead to sustained cell growth arrest and differentiation. Result(s): Sustained low-dose panobinostat (LBH589) treatment led to changes in cellular morphology associated with a marked increase in the induction of neural, renal, and osteoblast differentiation pathways. Genome-wide transcriptional profiling highlighted differential gene expression supporting multilineage differentiation. Using mouse xenograft models, sustained lowdose LBH589 treatment caused tumor growth arrest associated with tumor calcification detectable by X-ray imaging. Histological analysis of LBH589-treated tumors revealed significant regions of ossification, confirmed by Alizarin Red staining. Immunohistochemical analysis showed increased TUJ1 and PAX2 staining suggestive of neuronal and renal differentiation, respectively. Conclusion(s): Low-dose HDACi treatment can terminally differentiate MRT tumor cells and reduce their ability to self-renew. The use of low-dose HDACi as a novel therapeutic approach warrants further investigation.Copyright © 2016 American Association for Cancer Research.

Published

2016