Your search keyword '"Junankar S"' showing total 37 results

1. c-Myc and Her2 cooperate to drive a stem-like phenotype with poor prognosis in breast cancer

Author

Nair, R, Roden, D L, Teo, W S, McFarland, A, Junankar, S, Ye, S, Nguyen, A, Yang, J, Nikolic, I, Hui, M, Morey, A, Shah, J, Pfefferle, A D, Usary, J, Selinger, C, Baker, L A, Armstrong, N, Cowley, M J, Naylor, M J, Ormandy, C J, Lakhani, S R, Herschkowitz, J I, Perou, C M, Kaplan, W, O'Toole, S A, and Swarbrick, A

Published

2014

2. Inhibitor of Differentiation 4 (ID4) represses mammary myoepithelial differentiation via inhibition of HEB

Author

Holliday, H, Roden, D, Junankar, S, Wu, SZ, Baker, LA, Krisp, C, Chan, C-L, McFarland, A, Skhinas, JN, Cox, TR, Pal, B, Huntington, ND, Ormandy, CJ, Carroll, JS, Visvader, J, Molloy, MP, Swarbrick, A, Holliday, H, Roden, D, Junankar, S, Wu, SZ, Baker, LA, Krisp, C, Chan, C-L, McFarland, A, Skhinas, JN, Cox, TR, Pal, B, Huntington, ND, Ormandy, CJ, Carroll, JS, Visvader, J, Molloy, MP, and Swarbrick, A

Abstract

Inhibitor of differentiation (ID) proteins dimerize with basic HLH (bHLH) transcription factors, repressing transcription of lineage-specification genes across diverse cellular lineages. ID4 is a key regulator of mammary stem cells; however, the mechanism by which it achieves this is unclear. Here, we show that ID4 has a cell autonomous role in preventing myoepithelial differentiation of basal cells in mammary organoids and in vivo. ID4 positively regulates proliferative genes and negatively regulates genes involved in myoepithelial function. Mass spectrometry reveals that ID4 interacts with the bHLH protein HEB, which binds to E-box motifs in regulatory elements of basal developmental genes involved in extracellular matrix and the contractile cytoskeleton. We conclude that high ID4 expression in mammary basal stem cells antagonizes HEB transcriptional activity, preventing myoepithelial differentiation and allowing for appropriate tissue morphogenesis. Downregulation of ID4 during pregnancy modulates gene regulated by HEB, promoting specialization of basal cells into myoepithelial cells.

Published

2021

3. Interleukin-27 signaling promotes immunity against endogenously arising tumors: P063

Author

Natividad, K. D.T., Junankar, S., Swarbrick, A., and Batten, M.

Published

2012

4. Stromal cell diversity associated with immune evasion in human triple-negative breast cancer

Author

Wu, SZ ; https://orcid.org/0000-0002-6153-0449, Roden, DL ; https://orcid.org/0000-0003-2393-5805, Wang, C, Holliday, H ; https://orcid.org/0000-0002-3022-0114, Harvey, K, Cazet, AS ; https://orcid.org/0000-0001-7075-8448, Murphy, KJ, Pereira, B ; https://orcid.org/0000-0003-3513-1214, Al-Eryani, G, Bartonicek, N ; https://orcid.org/0000-0003-2144-1887, Hou, R, Torpy, JR, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Chan, CL, Lam, CE, Hui, MN, Gluch, L, Beith, J, Parker, A, Robbins, E, Segara, D, Mak, C, Cooper, C, Warrier, S, Forrest, A, Powell, J ; https://orcid.org/0000-0001-9031-6356, O'Toole, S, Cox, TR ; https://orcid.org/0000-0001-9294-1745, Timpson, P, Lim, E ; https://orcid.org/0000-0001-8065-8838, Liu, XS, Swarbrick, A ; https://orcid.org/0000-0002-3051-5676, Wu, SZ ; https://orcid.org/0000-0002-6153-0449, Roden, DL ; https://orcid.org/0000-0003-2393-5805, Wang, C, Holliday, H ; https://orcid.org/0000-0002-3022-0114, Harvey, K, Cazet, AS ; https://orcid.org/0000-0001-7075-8448, Murphy, KJ, Pereira, B ; https://orcid.org/0000-0003-3513-1214, Al-Eryani, G, Bartonicek, N ; https://orcid.org/0000-0003-2144-1887, Hou, R, Torpy, JR, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Chan, CL, Lam, CE, Hui, MN, Gluch, L, Beith, J, Parker, A, Robbins, E, Segara, D, Mak, C, Cooper, C, Warrier, S, Forrest, A, Powell, J ; https://orcid.org/0000-0001-9031-6356, O'Toole, S, Cox, TR ; https://orcid.org/0000-0001-9294-1745, Timpson, P, Lim, E ; https://orcid.org/0000-0001-8065-8838, Liu, XS, and Swarbrick, A ; https://orcid.org/0000-0002-3051-5676

Abstract

The tumour stroma regulates nearly all stages of carcinogenesis. Stromal heterogeneity in human triple-negative breast cancers (TNBCs) remains poorly understood, limiting the development of stromal-targeted therapies. Single-cell RNA sequencing of five TNBCs revealed two cancer-associated fibroblast (CAF) and two perivascular-like (PVL) subpopulations. CAFs clustered into two states: the first with features of myofibroblasts and the second characterised by high expression of growth factors and immunomodulatory molecules. PVL cells clustered into two states consistent with a differentiated and immature phenotype. We showed that these stromal states have distinct morphologies, spatial relationships and functional properties in regulating the extracellular matrix. Using cell signalling predictions, we provide evidence that stromal-immune crosstalk acts via a diverse array of immunoregulatory molecules. Importantly, the investigation of gene signatures from inflammatory-CAFs and differentiated-PVL cells in independent TNBC patient cohorts revealed strong associations with cytotoxic T-cell dysfunction and exclusion, respectively. Such insights present promising candidates to further investigate for new therapeutic strategies in the treatment of TNBCs.

Published

2020

5. A mutation in the viral sensor 2’-5’-oligoadenylate synthetase 2 causes failure of lactation

Author

Wells, Christine A, Oakes, SR ; https://orcid.org/0000-0003-1838-2310, Gallego-Ortega, D ; https://orcid.org/0000-0002-2347-7835, Stanford, PM, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL ; https://orcid.org/0000-0003-2393-5805, Donovan, J, Korennykh, A, Goodnow, CC ; https://orcid.org/0000-0001-5296-6155, O’Bryan, MK, Ormandy, CJ ; https://orcid.org/0000-0002-2504-7919, Wells, Christine A, Oakes, SR ; https://orcid.org/0000-0003-1838-2310, Gallego-Ortega, D ; https://orcid.org/0000-0002-2347-7835, Stanford, PM, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL ; https://orcid.org/0000-0003-2393-5805, Donovan, J, Korennykh, A, Goodnow, CC ; https://orcid.org/0000-0001-5296-6155, O’Bryan, MK, and Ormandy, CJ ; https://orcid.org/0000-0002-2504-7919

Abstract

We identified a non-synonymous mutation in Oas2 (I405N), a sensor of viral double-stranded RNA, from an ENU-mutagenesis screen designed to discover new genes involved in mammary development. The mutation caused post-partum failure of lactation in healthy mice with otherwise normally developed mammary glands, characterized by greatly reduced milk protein synthesis coupled with epithelial cell death, inhibition of proliferation and a robust interferon response. Expression of mutant but not wild type Oas2 in cultured HC-11 or T47D mammary cells recapitulated the phenotypic and transcriptional effects observed in the mouse. The mutation activates the OAS2 pathway, demonstrated by a 34-fold increase in RNase L activity, and its effects were dependent on expression of RNase L and IRF7, proximal and distal pathway members. This is the first report of a viral recognition pathway regulating lactation.

Published

2017

6. A mutation in the viral sensor 2′-5′-oligoadenylate synthetase 2 causes failure of lactation

Author

Wells, CA, Oakes, SR, Gallego-Ortega, D, Stanford, PM, Junankar, S, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL, Donovan, J, Korennykh, A, Goodnow, CC, O'Bryan, MK, Ormandy, CJ, Wells, CA, Oakes, SR, Gallego-Ortega, D, Stanford, PM, Junankar, S, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL, Donovan, J, Korennykh, A, Goodnow, CC, O'Bryan, MK, and Ormandy, CJ

Abstract

We identified a non-synonymous mutation in Oas2 (I405N), a sensor of viral double-stranded RNA, from an ENU-mutagenesis screen designed to discover new genes involved in mammary development. The mutation caused post-partum failure of lactation in healthy mice with otherwise normally developed mammary glands, characterized by greatly reduced milk protein synthesis coupled with epithelial cell death, inhibition of proliferation and a robust interferon response. Expression of mutant but not wild type Oas2 in cultured HC-11 or T47D mammary cells recapitulated the phenotypic and transcriptional effects observed in the mouse. The mutation activates the OAS2 pathway, demonstrated by a 34-fold increase in RNase L activity, and its effects were dependent on expression of RNase L and IRF7, proximal and distal pathway members. This is the first report of a viral recognition pathway regulating lactation.

Published

2017

7. A mutation in the viral sensor 2'-5'-oligoadenylate synthetase 2 causes failure of lactation.

Author

Oakes, SR, Gallego-Ortega, D, Stanford, PM, Junankar, S, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL, Donovan, J, Korennykh, A, Goodnow, CC, O'Bryan, MK, Ormandy, CJ, Oakes, SR, Gallego-Ortega, D, Stanford, PM, Junankar, S, Au, WWY, Kikhtyak, Z, von Korff, A, Sergio, CM, Law, AMK, Castillo, LE, Allerdice, SL, Young, AIJ, Piggin, C, Whittle, B, Bertram, E, Naylor, MJ, Roden, DL, Donovan, J, Korennykh, A, Goodnow, CC, O'Bryan, MK, and Ormandy, CJ

Abstract

We identified a non-synonymous mutation in Oas2 (I405N), a sensor of viral double-stranded RNA, from an ENU-mutagenesis screen designed to discover new genes involved in mammary development. The mutation caused post-partum failure of lactation in healthy mice with otherwise normally developed mammary glands, characterized by greatly reduced milk protein synthesis coupled with epithelial cell death, inhibition of proliferation and a robust interferon response. Expression of mutant but not wild type Oas2 in cultured HC-11 or T47D mammary cells recapitulated the phenotypic and transcriptional effects observed in the mouse. The mutation activates the OAS2 pathway, demonstrated by a 34-fold increase in RNase L activity, and its effects were dependent on expression of RNase L and IRF7, proximal and distal pathway members. This is the first report of a viral recognition pathway regulating lactation.

Published

2017

8. ID4 controls mammary stem cells and marks breast cancers with a stem cell-like phenotype.

Author

Junankar, S, Baker, LA, Roden, DL, Nair, R, Elsworth, B, Gallego-Ortega, D, Lacaze, P, Cazet, A, Nikolic, I, Teo, WS, Yang, J, McFarland, A, Harvey, K, Naylor, MJ, Lakhani, SR, Simpson, PT, Raghavendra, A, Saunus, J, Madore, J, Kaplan, W, Ormandy, C, Millar, EKA, O'Toole, S, Yun, K, Swarbrick, A, Junankar, S, Baker, LA, Roden, DL, Nair, R, Elsworth, B, Gallego-Ortega, D, Lacaze, P, Cazet, A, Nikolic, I, Teo, WS, Yang, J, McFarland, A, Harvey, K, Naylor, MJ, Lakhani, SR, Simpson, PT, Raghavendra, A, Saunus, J, Madore, J, Kaplan, W, Ormandy, C, Millar, EKA, O'Toole, S, Yun, K, and Swarbrick, A

Abstract

Basal-like breast cancer (BLBC) is a heterogeneous disease with poor prognosis; however, its cellular origins and aetiology are poorly understood. In this study, we show that inhibitor of differentiation 4 (ID4) is a key regulator of mammary stem cell self-renewal and marks a subset of BLBC with a putative mammary basal cell of origin. Using an ID4GFP knock-in reporter mouse and single-cell transcriptomics, we show that ID4 marks a stem cell-enriched subset of the mammary basal cell population. ID4 maintains the mammary stem cell pool by suppressing key factors required for luminal differentiation. Furthermore, ID4 is specifically expressed by a subset of human BLBC that possess a very poor prognosis and a transcriptional signature similar to a mammary stem cell. These studies identify ID4 as a mammary stem cell regulator, deconvolute the heterogeneity of BLBC and link a subset of mammary stem cells to the aetiology of BLBC.

Published

2015

9. Competitiveness effects of Environmental Tax Reforms. Summary report to the European Commision, DG Research and DG Taxation and Customs Union

Author

Andersen, M. S., Barker, T., Christie, E., Ekins, P., Fitz Gerald, J., Jilkova, J., Junankar, S., Landesmann, M., Pollitt, H., Salmons, R., Scott, S., and Speck, S.

Published

2007

10. Competitiveness Effects of Environmental Tax Reforms (COMETR) Annexes:Annex to final report to the European Commission, DG Research and DG TAXUD

Author

Andersen, M. S., Barker, T., Christie, E., Ekins, P., Fitz Gerald, J., Jilkova, J., Junankar, S., Landesmann, M., Pollitt, H., Salmons, R., Scott, S., and Speck, S.

Published

2007

11. c-Myc and Her2 cooperate to drive a stem-like phenotype with poor prognosis in breast cancer

Author

Nair, R., Roden, D.L., Teo, W.S., McFarland, A., Junankar, S., Ye, S., Nguyen, A., Yang, J., Nikolic, I., Hui, M., Morey, A., Shah, J., Pfefferle, A.D., Usary, J., Selinger, C., Baker, L.A, Armstrong, N., Cowley, M.J., Naylor, M.J., Ormandy, C.J., Lakhani, S.R., Herschkowitz, J.I., Perou, C.M., Kaplan, W., O'Toole, S.A., Swarbrick, A., Nair, R., Roden, D.L., Teo, W.S., McFarland, A., Junankar, S., Ye, S., Nguyen, A., Yang, J., Nikolic, I., Hui, M., Morey, A., Shah, J., Pfefferle, A.D., Usary, J., Selinger, C., Baker, L.A, Armstrong, N., Cowley, M.J., Naylor, M.J., Ormandy, C.J., Lakhani, S.R., Herschkowitz, J.I., Perou, C.M., Kaplan, W., O'Toole, S.A., and Swarbrick, A.

Abstract

The HER2 (ERBB2) and MYC genes are commonly amplified in breast cancer, yet little is known about their molecular and clinical interaction. Using a novel chimeric mammary transgenic approach and in vitro models, we demonstrate markedly increased self-renewal and tumour-propagating capability of cells transformed with Her2 and c-Myc. Coexpression of both oncoproteins in cultured cells led to the activation of a c-Myc transcriptional signature and acquisition of a self-renewing phenotype independent of an epithelial–mesenchymal transition programme or regulation of conventional cancer stem cell markers. Instead, Her2 and c-Myc cooperated to induce the expression of lipoprotein lipase, which was required for proliferation and self-renewal in vitro. HER2 and MYC were frequently coamplified in breast cancer, associated with aggressive clinical behaviour and poor outcome. Lastly, we show that in HER2+ breast cancer patients receiving adjuvant chemotherapy (but not targeted anti-Her2 therapy), MYC amplification is associated with a poor outcome. These findings demonstrate the importance of molecular and cellular context in oncogenic transformation and acquisition of a malignant stem-like phenotype and have diagnostic and therapeutic consequences for the clinical management of HER2+ breast cancer.

Published

2014

12. Interleukin-27 Signaling Promotes Immunity against Endogenously Arising Murine Tumors

Author

Dieli, Francesco, Natividad, KDT, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Mohd redzwan, N, Wirasinha, RC, King, C ; https://orcid.org/0000-0003-2193-2563, Brink, R ; https://orcid.org/0000-0002-9586-3655, Swarbrick, A ; https://orcid.org/0000-0002-3051-5676, Batten, ML, Nair, R, Dieli, Francesco, Natividad, KDT, Junankar, S ; https://orcid.org/0000-0002-3965-8278, Mohd redzwan, N, Wirasinha, RC, King, C ; https://orcid.org/0000-0003-2193-2563, Brink, R ; https://orcid.org/0000-0002-9586-3655, Swarbrick, A ; https://orcid.org/0000-0002-3051-5676, Batten, ML, and Nair, R

Published

2013

13. Stromal regulation of vessel stability by MMP14 and TGFbeta.

Author

Sounni, N.E., Dehne, K., Kempen, L.C.L.T. van, Egeblad, M., Affara, N.I., Cuevas, I., Wiesen, J., Junankar, S., Korets, L., Lee, J., Shen, J., Morrison, C.J., Overall, C.M., Krane, S.M., Werb, Z., Boudreau, N., Coussens, L.M., Sounni, N.E., Dehne, K., Kempen, L.C.L.T. van, Egeblad, M., Affara, N.I., Cuevas, I., Wiesen, J., Junankar, S., Korets, L., Lee, J., Shen, J., Morrison, C.J., Overall, C.M., Krane, S.M., Werb, Z., Boudreau, N., and Coussens, L.M.

Abstract

Contains fulltext : 89137.pdf (publisher's version ) (Open Access), Innate regulatory networks within organs maintain tissue homeostasis and facilitate rapid responses to damage. We identified a novel pathway regulating vessel stability in tissues that involves matrix metalloproteinase 14 (MMP14) and transforming growth factor beta 1 (TGFbeta(1)). Whereas plasma proteins rapidly extravasate out of vasculature in wild-type mice following acute damage, short-term treatment of mice in vivo with a broad-spectrum metalloproteinase inhibitor, neutralizing antibodies to TGFbeta(1), or an activin-like kinase 5 (ALK5) inhibitor significantly enhanced vessel leakage. By contrast, in a mouse model of age-related dermal fibrosis, where MMP14 activity and TGFbeta bioavailability are chronically elevated, or in mice that ectopically express TGFbeta in the epidermis, cutaneous vessels are resistant to acute leakage. Characteristic responses to tissue damage are reinstated if the fibrotic mice are pretreated with metalloproteinase inhibitors or TGFbeta signaling antagonists. Neoplastic tissues, however, are in a constant state of tissue damage and exhibit altered hemodynamics owing to hyperleaky angiogenic vasculature. In two distinct transgenic mouse tumor models, inhibition of ALK5 further enhanced vascular leakage into the interstitium and facilitated increased delivery of high molecular weight compounds into premalignant tissue and tumors. Taken together, these data define a central pathway involving MMP14 and TGFbeta that mediates vessel stability and vascular response to tissue injury. Antagonists of this pathway could be therapeutically exploited to improve the delivery of therapeutics or molecular contrast agents into tissues where chronic damage or neoplastic disease limits their efficient delivery.

Published

2010

14. c-Myc and Her2 cooperate to drive a stem-like phenotype with poor prognosis in breast cancer

Author

Nair, R, primary, Roden, D L, additional, Teo, W S, additional, McFarland, A, additional, Junankar, S, additional, Ye, S, additional, Nguyen, A, additional, Yang, J, additional, Nikolic, I, additional, Hui, M, additional, Morey, A, additional, Shah, J, additional, Pfefferle, A D, additional, Usary, J, additional, Selinger, C, additional, Baker, L A, additional, Armstrong, N, additional, Cowley, M J, additional, Naylor, M J, additional, Ormandy, C J, additional, Lakhani, S R, additional, Herschkowitz, J I, additional, Perou, C M, additional, Kaplan, W, additional, O'Toole, S A, additional, and Swarbrick, A, additional

Published

2013

15. P063 Interleukin-27 signaling promotes immunity against endogenously arising tumors

Author

Natividad, K.D.T., primary, Junankar, S., additional, Swarbrick, A., additional, and Batten, M., additional

Published

2012

16. MTOR signaling orchestrates stress-induced mutagenesis, facilitating adaptive evolution in cancer

Author

Jean-Yves Blay, Shivakumar Keerthikumar, Marina Pajic, Simon Junankar, Darren N. Saunders, Uyen Nguyen, Anthony T. Papenfuss, Paul Timpson, Ana Cristina Vargas, David Thomas, David R. Croucher, David L Goode, Danielle Nessem, Alvaro Gonzalez Rajal, Sean C. Warren, Min Ru Qiu, Mark J. McCabe, Georgina V. Long, Justin Bedo, Niall M. Corcoran, Max Nobis, Mark J. Cowley, Pavel Lobachevsky, Daniele Generali, Arcadi Cipponi, Cipponi, A., Goode, D. L., Bedo, J., Mccabe, M. J., Pajic, M., Croucher, D. R., Rajal, A. G., Junankar, S. R., Saunders, D. N., Lobachevsky, P., Papenfuss, A. T., Nessem, D., Nobis, M., Warren, S. C., Timpson, P., Cowley, M., Vargas, A. C., Qiu, M. R., Generali, D., Keerthikumar, S., Nguyen, U., Corcoran, N. M., Long, G. V., Blay, J. -Y., and Thomas, D. M.

Subjects

MTOR, cancer cells, mutations, targeted therapies, DNA Repair, Genetic Fitness, Mutagenesis (molecular biology technique), Antineoplastic Agents, Computational biology, Biology, medicine.disease_cause, Cell Line, Tumor, Neoplasms, medicine, Humans, Selection, Genetic, Mechanistic target of rapamycin, PI3K/AKT/mTOR pathway, cancer cell, Mutation, Multidisciplinary, TOR Serine-Threonine Kinases, Cancer, medicine.disease, Adaptation, Physiological, Drug Resistance, Neoplasm, Mutagenesis, biology.protein, mutation, Adaptation, Genome-Wide Association Study, Signal Transduction

Abstract

How cancer cells adapt to stress Bacteria adapt to harsh conditions such as antibiotic exposure by acquiring new mutations, a process called stress-induced mutagenesis. Cipponi et al. investigated whether similar programs of mutagenesis play a role in the response of cancer cells to targeted therapies. Using in vitro models of intense drug selection and genome-wide functional screens, the authors found evidence for an analogous process in cancer and showed that it is regulated by the mammalian target of rapamycin (mTOR) signaling pathway. This pathway appears to mediate a stress-related switch to error-prone DNA repair, resulting in the generation of mutations that facilitate the emergence of drug resistance. Science , this issue p. 1127

Published

2020

17. Case study on the meat and meat products industry

Author

Ryelund, A. V., Andersen, M. S., Barker, T., Christie, E., Ekins, P., Fitz Gerald, J., Jilkova, J., Junankar, S., Landesmann, M., Pollitt, H., Salmons, R., Scott, S., and Speck, S.

Published

2007

18. Case study on the paper and paper products industry

Author

Ryelund, A. V., Andersen, M. S., Barker, T., Christie, E., Ekins, P., Fitz Gerald, J., Jilkova, J., Junankar, S., Landesmann, M., Pollitt, H., Salmons, R., Scott, S., and Speck, S.

Published

2007

19. Tumor Biomechanics Alters Metastatic Dissemination of Triple Negative Breast Cancer via Rewiring Fatty Acid Metabolism.

Author

Filipe EC, Velayuthar S, Philp A, Nobis M, Latham SL, Parker AL, Murphy KJ, Wyllie K, Major GS, Contreras O, Mok ETY, Enriquez RF, McGowan S, Feher K, Quek LE, Hancock SE, Yam M, Tran E, Setargew YFI, Skhinas JN, Chitty JL, Phimmachanh M, Han JZR, Cadell AL, Papanicolaou M, Mahmodi H, Kiedik B, Junankar S, Ross SE, Lam N, Coulson R, Yang J, Zaratzian A, Da Silva AM, Tayao M, Chin IL, Cazet A, Kansara M, Segara D, Parker A, Hoy AJ, Harvey RP, Bogdanovic O, Timpson P, Croucher DR, Lim E, Swarbrick A, Holst J, Turner N, Choi YS, Kabakova IV, Philp A, and Cox TR

Subjects

Humans, Female, Mice, Cell Line, Tumor, Animals, Biomechanical Phenomena, Disease Models, Animal, Neoplasm Metastasis, Triple Negative Breast Neoplasms metabolism, Triple Negative Breast Neoplasms pathology, Fatty Acids metabolism, Tumor Microenvironment

Abstract

In recent decades, the role of tumor biomechanics on cancer cell behavior at the primary site has been increasingly appreciated. However, the effect of primary tumor biomechanics on the latter stages of the metastatic cascade, such as metastatic seeding of secondary sites and outgrowth remains underappreciated. This work sought to address this in the context of triple negative breast cancer (TNBC), a cancer type known to aggressively disseminate at all stages of disease progression. Using mechanically tuneable model systems, mimicking the range of stiffness's typically found within breast tumors, it is found that, contrary to expectations, cancer cells exposed to softer microenvironments are more able to colonize secondary tissues. It is shown that heightened cell survival is driven by enhanced metabolism of fatty acids within TNBC cells exposed to softer microenvironments. It is demonstrated that uncoupling cellular mechanosensing through integrin β1 blocking antibody effectively causes stiff primed TNBC cells to behave like their soft counterparts, both in vitro and in vivo. This work is the first to show that softer tumor microenvironments may be contributing to changes in disease outcome by imprinting on TNBC cells a greater metabolic flexibility and conferring discrete cell survival advantages., (© 2024 The Authors. Advanced Science published by Wiley‐VCH GmbH.)

Published

2024

20. Machine learning identifies a 5-serum cytokine panel for the early detection of chronic atrophy gastritis patients.

Author

An F, Ge Y, Ye W, Ji L, Chen K, Wang Y, Zhang X, Dong S, Shen Y, Zhao J, Gao X, Junankar S, Chan RB, Christodoulou D, Wen W, Lu P, and Zhan Q

Subjects

Humans, Female, Male, Middle Aged, Stomach Neoplasms blood, Stomach Neoplasms diagnosis, Aged, Adult, Early Detection of Cancer methods, Chronic Disease, Machine Learning, Cytokines blood, Gastritis, Atrophic blood, Gastritis, Atrophic diagnosis

Abstract

Background: Chronic atrophy gastritis (CAG) is a high-risk pre-cancerous lesion for gastric cancer (GC). The early and accurate detection and discrimination of CAG from benign forms of gastritis (e.g. chronic superficial gastritis, CSG) is critical for optimal management of GC. However, accurate non-invasive methods for the diagnosis of CAG are currently lacking. Cytokines cause inflammation and drive cancer transformation in GC, but their utility as a diagnostic for CAG is poorly characterized., Methods: Blood samples were collected, and 40 cytokines were quantified using a multiplexed immunoassay from 247 patients undergoing screening via endoscopy. Patients were divided into discovery and validation sets. Each cytokine importance was ranked using the feature selection algorithm Boruta. The cytokines with the highest feature importance were selected for machine learning (ML), using the LightGBM algorithm., Results: Five serum cytokines (IL-10, TNF-α, Eotaxin, IP-10 and SDF-1a) that could discriminate between CAG and CSG patients were identified and used for predictive model construction. This model was robust and could identify CAG patients with high performance (AUC = 0.88, Accuracy = 0.78). This compared favorably to the conventional approach using the PGI/PGII ratio (AUC = 0.59)., Conclusion: Using state-of-the-art ML and a blood-based immunoassay, we developed an improved non-invasive screening method for the detection of precancerous GC lesions., Funding: Supported in part by grants from: Jiangsu Science and Technology Project (no. BK20211039); Top Talent Support Program for young and middle-aged people of Wuxi Health Committee (BJ2023008); Medical Key Discipline Program of Wuxi Health Commission (ZDXK2021010), Wuxi Science and Technology Bureau Project (no. N20201004); Scientific Research Program of Wuxi Health Commission (Z202208, J202104).

Published

2024

21. DNA barcoding reveals ongoing immunoediting of clonal cancer populations during metastatic progression and immunotherapy response.

Author

Baldwin LA, Bartonicek N, Yang J, Wu SZ, Deng N, Roden DL, Chan CL, Al-Eryani G, Zanker DJ, Parker BS, Swarbrick A, and Junankar S

Subjects

Humans, Mice, Animals, Female, Immunotherapy, Immunologic Factors, Longitudinal Studies, DNA Barcoding, Taxonomic, Breast Neoplasms genetics, Breast Neoplasms therapy

Abstract

Cancers evade the immune system through the process of cancer immunoediting. While immune checkpoint inhibitors are effective for reactivating tumour immunity in some cancer types, many other solid cancers, including breast cancer, remain largely non-responsive. Understanding how non-responsive cancers evade immunity and whether this occurs at the clonal level will improve immunotherapeutic design. Here we use DNA barcoding to track murine mammary cancer cell clones during immunoediting and determine clonal transcriptional profiles that allow immune evasion following anti-PD1 plus anti-CTLA4 immunotherapy. Clonal diversity is significantly restricted by immunotherapy treatment in both primary tumours and metastases, demonstrating selection for pre-existing breast cancer cell populations and ongoing immunoediting during metastasis and treatment. Immunotherapy resistant clones express a common gene signature associated with poor survival of basal-like breast cancer patient cohorts. At least one of these genes has an existing small molecule that can potentially be used to improve immunotherapy response., (© 2022. The Author(s).)

Published

2022

22. A single-cell and spatially resolved atlas of human breast cancers.

Author

Wu SZ, Al-Eryani G, Roden DL, Junankar S, Harvey K, Andersson A, Thennavan A, Wang C, Torpy JR, Bartonicek N, Wang T, Larsson L, Kaczorowski D, Weisenfeld NI, Uytingco CR, Chew JG, Bent ZW, Chan CL, Gnanasambandapillai V, Dutertre CA, Gluch L, Hui MN, Beith J, Parker A, Robbins E, Segara D, Cooper C, Mak C, Chan B, Warrier S, Ginhoux F, Millar E, Powell JE, Williams SR, Liu XS, O'Toole S, Lim E, Lundeberg J, Perou CM, and Swarbrick A

Subjects

B-Lymphocytes immunology, B7-H1 Antigen genetics, Biomarkers, Tumor genetics, Breast Neoplasms immunology, CD8-Positive T-Lymphocytes immunology, Endothelial Cells metabolism, Female, Gene Expression Regulation, Neoplastic genetics, Humans, Macrophages cytology, Macrophages immunology, Membrane Proteins genetics, Myeloid Cells immunology, Myeloid Cells metabolism, Sequence Analysis, RNA, Tumor Microenvironment, Tumor Suppressor Proteins genetics, Breast Neoplasms genetics, Breast Neoplasms pathology, Single-Cell Analysis, Transcriptome genetics

Abstract

Breast cancers are complex cellular ecosystems where heterotypic interactions play central roles in disease progression and response to therapy. However, our knowledge of their cellular composition and organization is limited. Here we present a single-cell and spatially resolved transcriptomics analysis of human breast cancers. We developed a single-cell method of intrinsic subtype classification (SCSubtype) to reveal recurrent neoplastic cell heterogeneity. Immunophenotyping using cellular indexing of transcriptomes and epitopes by sequencing (CITE-seq) provides high-resolution immune profiles, including new PD-L1/PD-L2 + macrophage populations associated with clinical outcome. Mesenchymal cells displayed diverse functions and cell-surface protein expression through differentiation within three major lineages. Stromal-immune niches were spatially organized in tumors, offering insights into antitumor immune regulation. Using single-cell signatures, we deconvoluted large breast cancer cohorts to stratify them into nine clusters, termed 'ecotypes', with unique cellular compositions and clinical outcomes. This study provides a comprehensive transcriptional atlas of the cellular architecture of breast cancer., (© 2021. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2021

23. Cryopreservation of human cancers conserves tumour heterogeneity for single-cell multi-omics analysis.

Author

Wu SZ, Roden DL, Al-Eryani G, Bartonicek N, Harvey K, Cazet AS, Chan CL, Junankar S, Hui MN, Millar EA, Beretov J, Horvath L, Joshua AM, Stricker P, Wilmott JS, Quek C, Long GV, Scolyer RA, Yeung BZ, Segara D, Mak C, Warrier S, Powell JE, O'Toole S, Lim E, and Swarbrick A

Subjects

Biomarkers, Tumor, Gene Expression Profiling methods, Gene Expression Regulation, High-Throughput Nucleotide Sequencing, Humans, Immunophenotyping, Neoplasms etiology, Organ Specificity genetics, Sequence Analysis, RNA methods, Signal Transduction, Biological Specimen Banks, Cryopreservation methods, Cryopreservation standards, Genomics methods, Neoplasms diagnosis, Single-Cell Analysis methods

Abstract

Background: High throughput single-cell RNA sequencing (scRNA-Seq) has emerged as a powerful tool for exploring cellular heterogeneity among complex human cancers. scRNA-Seq studies using fresh human surgical tissue are logistically difficult, preclude histopathological triage of samples, and limit the ability to perform batch processing. This hindrance can often introduce technical biases when integrating patient datasets and increase experimental costs. Although tissue preservation methods have been previously explored to address such issues, it is yet to be examined on complex human tissues, such as solid cancers and on high throughput scRNA-Seq platforms., Methods: Using the Chromium 10X platform, we sequenced a total of ~ 120,000 cells from fresh and cryopreserved replicates across three primary breast cancers, two primary prostate cancers and a cutaneous melanoma. We performed detailed analyses between cells from each condition to assess the effects of cryopreservation on cellular heterogeneity, cell quality, clustering and the identification of gene ontologies. In addition, we performed single-cell immunophenotyping using CITE-Seq on a single breast cancer sample cryopreserved as solid tissue fragments., Results: Tumour heterogeneity identified from fresh tissues was largely conserved in cryopreserved replicates. We show that sequencing of single cells prepared from cryopreserved tissue fragments or from cryopreserved cell suspensions is comparable to sequenced cells prepared from fresh tissue, with cryopreserved cell suspensions displaying higher correlations with fresh tissue in gene expression. We showed that cryopreservation had minimal impacts on the results of downstream analyses such as biological pathway enrichment. For some tumours, cryopreservation modestly increased cell stress signatures compared to freshly analysed tissue. Further, we demonstrate the advantage of cryopreserving whole-cells for detecting cell-surface proteins using CITE-Seq, which is impossible using other preservation methods such as single nuclei-sequencing., Conclusions: We show that the viable cryopreservation of human cancers provides high-quality single-cells for multi-omics analysis. Our study guides new experimental designs for tissue biobanking for future clinical single-cell RNA sequencing studies.

Published

2021

24. Inhibitor of Differentiation 4 (ID4) represses mammary myoepithelial differentiation via inhibition of HEB.

Author

Holliday H, Roden D, Junankar S, Wu SZ, Baker LA, Krisp C, Chan CL, McFarland A, Skhinas JN, Cox TR, Pal B, Huntington ND, Ormandy CJ, Carroll JS, Visvader J, Molloy MP, and Swarbrick A

Abstract

Inhibitor of differentiation (ID) proteins dimerize with basic HLH (bHLH) transcription factors, repressing transcription of lineage-specification genes across diverse cellular lineages. ID4 is a key regulator of mammary stem cells; however, the mechanism by which it achieves this is unclear. Here, we show that ID4 has a cell autonomous role in preventing myoepithelial differentiation of basal cells in mammary organoids and in vivo . ID4 positively regulates proliferative genes and negatively regulates genes involved in myoepithelial function. Mass spectrometry reveals that ID4 interacts with the bHLH protein HEB, which binds to E-box motifs in regulatory elements of basal developmental genes involved in extracellular matrix and the contractile cytoskeleton. We conclude that high ID4 expression in mammary basal stem cells antagonizes HEB transcriptional activity, preventing myoepithelial differentiation and allowing for appropriate tissue morphogenesis. Downregulation of ID4 during pregnancy modulates gene regulated by HEB, promoting specialization of basal cells into myoepithelial cells., Competing Interests: N.D.H. has ownership and stock options in oNKo-Innate Pty Ltd. The remaining authors declare no competing interests., (© 2021 The Author(s).)

Published

2021

25. Stromal cell diversity associated with immune evasion in human triple-negative breast cancer.

Author

Wu SZ, Roden DL, Wang C, Holliday H, Harvey K, Cazet AS, Murphy KJ, Pereira B, Al-Eryani G, Bartonicek N, Hou R, Torpy JR, Junankar S, Chan CL, Lam CE, Hui MN, Gluch L, Beith J, Parker A, Robbins E, Segara D, Mak C, Cooper C, Warrier S, Forrest A, Powell J, O'Toole S, Cox TR, Timpson P, Lim E, Liu XS, and Swarbrick A

Subjects

Extracellular Matrix immunology, Extracellular Matrix pathology, Female, Humans, RNA-Seq, Stromal Cells immunology, Stromal Cells pathology, T-Lymphocytes, Cytotoxic immunology, T-Lymphocytes, Cytotoxic pathology, Triple Negative Breast Neoplasms pathology, Triple Negative Breast Neoplasms immunology, Tumor Escape

Abstract

The tumour stroma regulates nearly all stages of carcinogenesis. Stromal heterogeneity in human triple-negative breast cancers (TNBCs) remains poorly understood, limiting the development of stromal-targeted therapies. Single-cell RNA sequencing of five TNBCs revealed two cancer-associated fibroblast (CAF) and two perivascular-like (PVL) subpopulations. CAFs clustered into two states: the first with features of myofibroblasts and the second characterised by high expression of growth factors and immunomodulatory molecules. PVL cells clustered into two states consistent with a differentiated and immature phenotype. We showed that these stromal states have distinct morphologies, spatial relationships and functional properties in regulating the extracellular matrix. Using cell signalling predictions, we provide evidence that stromal-immune crosstalk acts via a diverse array of immunoregulatory molecules. Importantly, the investigation of gene signatures from inflammatory-CAFs and differentiated-PVL cells in independent TNBC patient cohorts revealed strong associations with cytotoxic T-cell dysfunction and exclusion, respectively. Such insights present promising candidates to further investigate for new therapeutic strategies in the treatment of TNBCs., (© 2020 The Authors.)

Published

2020

26. Id Proteins Promote a Cancer Stem Cell Phenotype in Mouse Models of Triple Negative Breast Cancer via Negative Regulation of Robo1.

Author

Teo WS, Holliday H, Karthikeyan N, Cazet AS, Roden DL, Harvey K, Konrad CV, Murali R, Varghese BA, Thankamony AP, Chan CL, McFarland A, Junankar S, Ye S, Yang J, Nikolic I, Shah JS, Baker LA, Millar EKA, Naylor MJ, Ormandy CJ, Lakhani SR, Kaplan W, Mellick AS, O'Toole SA, Swarbrick A, and Nair R

Abstract

Breast cancers display phenotypic and functional heterogeneity and several lines of evidence support the existence of cancer stem cells (CSCs) in certain breast cancers, a minor population of cells capable of tumor initiation and metastatic dissemination. Identifying factors that regulate the CSC phenotype is therefore important for developing strategies to treat metastatic disease. The Inhibitor of Differentiation Protein 1 (Id1) and its closely related family member Inhibitor of Differentiation 3 (Id3) (collectively termed Id) are expressed by a diversity of stem cells and are required for metastatic dissemination in experimental models of breast cancer. In this study, we show that ID1 is expressed in rare neoplastic cells within ER-negative breast cancers. To address the function of Id1 expressing cells within tumors, we developed independent murine models of Triple Negative Breast Cancer (TNBC) in which a genetic reporter permitted the prospective isolation of Id1 + cells. Id1 + cells are enriched for self-renewal in tumorsphere assays in vitro and for tumor initiation in vivo . Conversely, depletion of Id1 and Id3 in the 4T1 murine model of TNBC demonstrates that Id1/3 are required for cell proliferation and self-renewal in vitro , as well as primary tumor growth and metastatic colonization of the lung in vivo . Using combined bioinformatic analysis, we have defined a novel mechanism of Id protein function via negative regulation of the Roundabout Axon Guidance Receptor Homolog 1 ( Robo1 ) leading to activation of a Myc transcriptional programme., (Copyright © 2020 Teo, Holliday, Karthikeyan, Cazet, Roden, Harvey, Konrad, Murali, Varghese, Thankamony, Chan, McFarland, Junankar, Ye, Yang, Nikolic, Shah, Baker, Millar, Naylor, Ormandy, Lakhani, Kaplan, Mellick, O'Toole, Swarbrick and Nair.)

Published

2020

27. Proteogenomic analysis of Inhibitor of Differentiation 4 (ID4) in basal-like breast cancer.

Author

Baker LA, Holliday H, Roden D, Krisp C, Wu SZ, Junankar S, Serandour AA, Mohammed H, Nair R, Sankaranarayanan G, Law AMK, McFarland A, Simpson PT, Lakhani S, Dodson E, Selinger C, Anderson L, Samimi G, Hacker NF, Lim E, Ormandy CJ, Naylor MJ, Simpson K, Nikolic I, O'Toole S, Kaplan W, Cowley MJ, Carroll JS, Molloy M, and Swarbrick A

Subjects

Animals, Apoptosis physiology, Breast Neoplasms pathology, Carcinoma, Basal Cell pathology, Cell Differentiation physiology, Cell Line, Tumor, Cell Proliferation physiology, Chromatin genetics, Chromatin metabolism, DNA Damage, Female, Heterografts, Humans, Mice, Mice, Inbred NOD, Mice, SCID, Prognosis, Proteogenomics, Tumor Cells, Cultured, Breast Neoplasms genetics, Breast Neoplasms metabolism, Carcinoma, Basal Cell genetics, Carcinoma, Basal Cell metabolism, Inhibitor of Differentiation Proteins genetics, Inhibitor of Differentiation Proteins metabolism

Abstract

Background: Basal-like breast cancer (BLBC) is a poorly characterised, heterogeneous disease. Patients are diagnosed with aggressive, high-grade tumours and often relapse with chemotherapy resistance. Detailed understanding of the molecular underpinnings of this disease is essential to the development of personalised therapeutic strategies. Inhibitor of differentiation 4 (ID4) is a helix-loop-helix transcriptional regulator required for mammary gland development. ID4 is overexpressed in a subset of BLBC patients, associating with a stem-like poor prognosis phenotype, and is necessary for the growth of cell line models of BLBC through unknown mechanisms., Methods: Here, we have defined unique molecular insights into the function of ID4 in BLBC and the related disease high-grade serous ovarian cancer (HGSOC), by combining RIME proteomic analysis, ChIP-seq mapping of genomic binding sites and RNA-seq., Results: These studies reveal novel interactions with DNA damage response proteins, in particular, mediator of DNA damage checkpoint protein 1 (MDC1). Through MDC1, ID4 interacts with other DNA repair proteins (γH2AX and BRCA1) at fragile chromatin sites. ID4 does not affect transcription at these sites, instead binding to chromatin following DNA damage. Analysis of clinical samples demonstrates that ID4 is amplified and overexpressed at a higher frequency in BRCA1-mutant BLBC compared with sporadic BLBC, providing genetic evidence for an interaction between ID4 and DNA damage repair deficiency., Conclusions: These data link the interactions of ID4 with MDC1 to DNA damage repair in the aetiology of BLBC and HGSOC.

Published

2020

28. High-throughput targeted long-read single cell sequencing reveals the clonal and transcriptional landscape of lymphocytes.

Author

Singh M, Al-Eryani G, Carswell S, Ferguson JM, Blackburn J, Barton K, Roden D, Luciani F, Giang Phan T, Junankar S, Jackson K, Goodnow CC, Smith MA, and Swarbrick A

Subjects

Clonal Evolution immunology, Gene Expression Profiling, High-Throughput Nucleotide Sequencing methods, Humans, Primary Cell Culture, Receptors, Antigen, B-Cell genetics, Receptors, Antigen, B-Cell metabolism, Receptors, Antigen, T-Cell genetics, Receptors, Antigen, T-Cell metabolism, Sequence Analysis, RNA methods, Clonal Evolution genetics, Lymphocytes metabolism, Single-Cell Analysis methods

Abstract

High-throughput single-cell RNA sequencing is a powerful technique but only generates short reads from one end of a cDNA template, limiting the reconstruction of highly diverse sequences such as antigen receptors. To overcome this limitation, we combined targeted capture and long-read sequencing of T-cell-receptor (TCR) and B-cell-receptor (BCR) mRNA transcripts with short-read transcriptome profiling of barcoded single-cell libraries generated by droplet-based partitioning. We show that Repertoire and Gene Expression by Sequencing (RAGE-Seq) can generate accurate full-length antigen receptor sequences at nucleotide resolution, infer B-cell clonal evolution and identify alternatively spliced BCR transcripts. We apply RAGE-Seq to 7138 cells sampled from the primary tumor and draining lymph node of a breast cancer patient to track transcriptome profiles of expanded lymphocyte clones across tissues. Our results demonstrate that RAGE-Seq is a powerful method for tracking the clonal evolution from large numbers of lymphocytes applicable to the study of immunity, autoimmunity and cancer.

Published

2019

29. A mutation in the viral sensor 2'-5'-oligoadenylate synthetase 2 causes failure of lactation.

Author

Oakes SR, Gallego-Ortega D, Stanford PM, Junankar S, Au WWY, Kikhtyak Z, von Korff A, Sergio CM, Law AMK, Castillo LE, Allerdice SL, Young AIJ, Piggin C, Whittle B, Bertram E, Naylor MJ, Roden DL, Donovan J, Korennykh A, Goodnow CC, O'Bryan MK, and Ormandy CJ

Subjects

2',5'-Oligoadenylate Synthetase metabolism, Adenine Nucleotides metabolism, Animals, Cell Culture Techniques, Endoribonucleases metabolism, Female, Humans, Mammary Glands, Animal metabolism, Mice, Milk, Mutation genetics, Oligoribonucleotides metabolism, RNA, Double-Stranded metabolism, Signal Transduction genetics, 2',5'-Oligoadenylate Synthetase genetics, Lactation genetics

Abstract

We identified a non-synonymous mutation in Oas2 (I405N), a sensor of viral double-stranded RNA, from an ENU-mutagenesis screen designed to discover new genes involved in mammary development. The mutation caused post-partum failure of lactation in healthy mice with otherwise normally developed mammary glands, characterized by greatly reduced milk protein synthesis coupled with epithelial cell death, inhibition of proliferation and a robust interferon response. Expression of mutant but not wild type Oas2 in cultured HC-11 or T47D mammary cells recapitulated the phenotypic and transcriptional effects observed in the mouse. The mutation activates the OAS2 pathway, demonstrated by a 34-fold increase in RNase L activity, and its effects were dependent on expression of RNase L and IRF7, proximal and distal pathway members. This is the first report of a viral recognition pathway regulating lactation.

Published

2017

30. ID4 controls mammary stem cells and marks breast cancers with a stem cell-like phenotype.

Author

Junankar S, Baker LA, Roden DL, Nair R, Elsworth B, Gallego-Ortega D, Lacaze P, Cazet A, Nikolic I, Teo WS, Yang J, McFarland A, Harvey K, Naylor MJ, Lakhani SR, Simpson PT, Raghavendra A, Saunus J, Madore J, Kaplan W, Ormandy C, Millar EK, O'Toole S, Yun K, and Swarbrick A

Subjects

Animals, Breast Neoplasms metabolism, Cell Line, Tumor, Female, Gene Knock-In Techniques, Humans, Inhibitor of Differentiation Proteins metabolism, Mammary Glands, Animal metabolism, Mice, Neoplasm Transplantation, Phenotype, Real-Time Polymerase Chain Reaction, Breast Neoplasms genetics, Inhibitor of Differentiation Proteins genetics, Mammary Glands, Animal cytology, RNA, Messenger metabolism, Stem Cells metabolism

Abstract

Basal-like breast cancer (BLBC) is a heterogeneous disease with poor prognosis; however, its cellular origins and aetiology are poorly understood. In this study, we show that inhibitor of differentiation 4 (ID4) is a key regulator of mammary stem cell self-renewal and marks a subset of BLBC with a putative mammary basal cell of origin. Using an ID4GFP knock-in reporter mouse and single-cell transcriptomics, we show that ID4 marks a stem cell-enriched subset of the mammary basal cell population. ID4 maintains the mammary stem cell pool by suppressing key factors required for luminal differentiation. Furthermore, ID4 is specifically expressed by a subset of human BLBC that possess a very poor prognosis and a transcriptional signature similar to a mammary stem cell. These studies identify ID4 as a mammary stem cell regulator, deconvolute the heterogeneity of BLBC and link a subset of mammary stem cells to the aetiology of BLBC.

Published

2015

31. Real-time intravital imaging establishes tumor-associated macrophages as the extraskeletal target of bisphosphonate action in cancer.

Author

Junankar S, Shay G, Jurczyluk J, Ali N, Down J, Pocock N, Parker A, Nguyen A, Sun S, Kashemirov B, McKenna CE, Croucher PI, Swarbrick A, Weilbaecher K, Phan TG, and Rogers MJ

Subjects

Animals, Bone Density Conservation Agents therapeutic use, Breast Neoplasms diagnosis, Breast Neoplasms drug therapy, Breast Neoplasms immunology, Calcinosis, Carbocyanines, Diphosphonates therapeutic use, Disease Models, Animal, Female, Humans, Macrophages drug effects, Macrophages immunology, Mice, Middle Aged, Neoplasm Grading, Neoplasm Invasiveness, Neoplasms drug therapy, Phagocytosis immunology, Xenograft Model Antitumor Assays, Bone Density Conservation Agents metabolism, Diphosphonates metabolism, Macrophages metabolism, Neoplasms diagnosis, Tomography, Emission-Computed, Single-Photon, Tomography, X-Ray Computed

Abstract

Unlabelled: Recent clinical trials have shown that bisphosphonate drugs improve breast cancer patient survival independent of their antiresorptive effects on the skeleton. However, because bisphosphonates bind rapidly to bone mineral, the exact mechanisms of their antitumor action, particularly on cells outside of bone, remain unknown. Here, we used real-time intravital two-photon microscopy to show extensive leakage of fluorescent bisphosphonate from the vasculature in 4T1 mouse mammary tumors, where it initially binds to areas of small, granular microcalcifications that are engulfed by tumor-associated macrophages (TAM), but not tumor cells. Importantly, we also observed uptake of radiolabeled bisphosphonate in the primary breast tumor of a patient and showed the resected tumor to be infiltrated with TAMs and to contain similar granular microcalcifications. These data represent the first compelling in vivo evidence that bisphosphonates can target cells in tumors outside the skeleton and that their antitumor activity is likely to be mediated via TAMs., Significance: Bisphosphonates are assumed to act solely in bone. However, mouse models and clinical trials show that they have surprising antitumor effects outside bone. We provide unequivocal evidence that bisphosphonates target TAMs, but not tumor cells, to exert their extraskeletal effects, offering a rationale for use in patients with early disease., (©2014 American Association for Cancer Research.)

Published

2015

32. Cathepsin C is a tissue-specific regulator of squamous carcinogenesis.

Author

Ruffell B, Affara NI, Cottone L, Junankar S, Johansson M, DeNardo DG, Korets L, Reinheckel T, Sloane BF, Bogyo M, and Coussens LM

Subjects

Animals, Cathepsin B genetics, Cathepsin B metabolism, Cathepsin C genetics, Cell Line, Tumor, Chymases metabolism, Female, Fibroblasts metabolism, Gene Expression Regulation, Neoplastic, Humans, Leukocytes metabolism, Mammary Neoplasms, Animal physiopathology, Mice, Mice, Transgenic, Neovascularization, Pathologic genetics, Pancreatic Elastase metabolism, Carcinogenesis genetics, Carcinogenesis metabolism, Carcinoma, Squamous Cell physiopathology, Cathepsin C metabolism, Skin Neoplasms physiopathology

Abstract

Serine and cysteine cathepsin (Cts) proteases are an important class of intracellular and pericellular enzymes mediating multiple aspects of tumor development. Emblematic of these is CtsB, reported to play functionally significant roles during pancreatic islet and mammary carcinogenesis. CtsC, on the other hand, while up-regulated during pancreatic islet carcinogenesis, lacks functional significance in mediating neoplastic progression in that organ. Given that protein expression and enzymatic activity of both CtsB and CtsC are increased in numerous tumors, we sought to understand how tissue specificity might factor into their functional significance. Thus, whereas others have reported that CtsB regulates metastasis of mammary carcinomas, we found that development of squamous carcinomas occurs independently of CtsB. In contrast to these findings, our studies found no significant role for CtsC during mammary carcinogenesis but revealed squamous carcinogenesis to be functionally dependent on CtsC. In this context, dermal/stromal fibroblasts and bone marrow-derived cells expressed increased levels of enzymatically active CtsC that regulated the complexity of infiltrating immune cells in neoplastic skin, development of angiogenic vasculature, and overt squamous cell carcinoma growth. These studies highlight the important contribution of tissue/microenvironment context to solid tumor development and indicate that tissue specificity defines functional significance for these two members of the cysteine protease family.

Published

2013

33. Redefining the expression and function of the inhibitor of differentiation 1 in mammary gland development.

Author

Nair R, Junankar S, O'Toole S, Shah J, Borowsky AD, Bishop JM, and Swarbrick A

Subjects

Animals, Cell Differentiation, Female, Lactation genetics, Lactation metabolism, Mammary Glands, Animal cytology, Mammary Glands, Animal physiology, Mice, Mice, Transgenic, Pregnancy, Gene Expression Regulation, Developmental, Inhibitor of Differentiation Protein 1 genetics, Inhibitor of Differentiation Protein 1 metabolism, Mammary Glands, Animal growth & development, Mammary Glands, Animal metabolism

Abstract

The accumulation of poorly differentiated cells is a hallmark of breast neoplasia and progression. Thus an understanding of the factors controlling mammary differentiation is critical to a proper understanding of breast tumourigenesis. The Inhibitor of Differentiation 1 (Id1) protein has well documented roles in the control of mammary epithelial differentiation and proliferation in vitro and breast cancer progression in vivo. However, it has not been determined whether Id1 expression is sufficient for the inhibition of mammary epithelial differentiation or the promotion of neoplastic transformation in vivo. We now show that Id1 is not commonly expressed by the luminal mammary epithelia, as previously reported. Generation and analysis of a transgenic mouse model of Id1 overexpression in the mammary gland reveals that Id1 is insufficient for neoplastic progression in virgin animals or to prevent terminal differentiation of the luminal epithelia during pregnancy and lactation. Together, these data demonstrate that there is no luminal cell-autonomous role for Id1 in mammary epithelial cell fate determination, ductal morphogenesis and terminal differentiation.

Published

2010

34. Stromal regulation of vessel stability by MMP14 and TGFbeta.

Author

Sounni NE, Dehne K, van Kempen L, Egeblad M, Affara NI, Cuevas I, Wiesen J, Junankar S, Korets L, Lee J, Shen J, Morrison CJ, Overall CM, Krane SM, Werb Z, Boudreau N, and Coussens LM

Subjects

Aging pathology, Animals, Fibrillar Collagens metabolism, Homeostasis, Matrix Metalloproteinase 14 deficiency, Mice, Models, Biological, Mustard Plant, Plant Oils, Protein Serine-Threonine Kinases antagonists & inhibitors, Protein Serine-Threonine Kinases metabolism, Receptor, Transforming Growth Factor-beta Type I, Receptors, Transforming Growth Factor beta antagonists & inhibitors, Receptors, Transforming Growth Factor beta metabolism, Skin Neoplasms blood supply, Skin Neoplasms pathology, Stromal Cells enzymology, Stromal Cells pathology, Vascular Resistance, Blood Vessels enzymology, Blood Vessels pathology, Matrix Metalloproteinase 14 metabolism, Transforming Growth Factor beta metabolism

Abstract

Innate regulatory networks within organs maintain tissue homeostasis and facilitate rapid responses to damage. We identified a novel pathway regulating vessel stability in tissues that involves matrix metalloproteinase 14 (MMP14) and transforming growth factor beta 1 (TGFbeta(1)). Whereas plasma proteins rapidly extravasate out of vasculature in wild-type mice following acute damage, short-term treatment of mice in vivo with a broad-spectrum metalloproteinase inhibitor, neutralizing antibodies to TGFbeta(1), or an activin-like kinase 5 (ALK5) inhibitor significantly enhanced vessel leakage. By contrast, in a mouse model of age-related dermal fibrosis, where MMP14 activity and TGFbeta bioavailability are chronically elevated, or in mice that ectopically express TGFbeta in the epidermis, cutaneous vessels are resistant to acute leakage. Characteristic responses to tissue damage are reinstated if the fibrotic mice are pretreated with metalloproteinase inhibitors or TGFbeta signaling antagonists. Neoplastic tissues, however, are in a constant state of tissue damage and exhibit altered hemodynamics owing to hyperleaky angiogenic vasculature. In two distinct transgenic mouse tumor models, inhibition of ALK5 further enhanced vascular leakage into the interstitium and facilitated increased delivery of high molecular weight compounds into premalignant tissue and tumors. Taken together, these data define a central pathway involving MMP14 and TGFbeta that mediates vessel stability and vascular response to tissue injury. Antagonists of this pathway could be therapeutically exploited to improve the delivery of therapeutics or molecular contrast agents into tissues where chronic damage or neoplastic disease limits their efficient delivery.

Published

2010

35. FcRgamma activation regulates inflammation-associated squamous carcinogenesis.

Author

Andreu P, Johansson M, Affara NI, Pucci F, Tan T, Junankar S, Korets L, Lam J, Tawfik D, DeNardo DG, Naldini L, de Visser KE, De Palma M, and Coussens LM

Subjects

Animals, B-Lymphocytes metabolism, CD11b Antigen metabolism, Carcinoma, Squamous Cell blood supply, Carcinoma, Squamous Cell metabolism, Carcinoma, Squamous Cell pathology, Immunity, Humoral physiology, Mast Cells immunology, Mast Cells metabolism, Mast Cells pathology, Mice, Mice, Transgenic, Models, Biological, Myeloid Cells immunology, Myeloid Cells metabolism, Neoplasms, Glandular and Epithelial blood supply, Neoplasms, Glandular and Epithelial metabolism, Neoplasms, Glandular and Epithelial pathology, Neovascularization, Pathologic, Receptors, IgG metabolism, B-Lymphocytes immunology, Carcinoma, Squamous Cell immunology, Neoplasms, Glandular and Epithelial immunology, Receptors, IgG physiology

Abstract

Chronically activated leukocytes recruited to premalignant tissues functionally contribute to cancer development; however, mechanisms underlying pro- versus anti-tumor programming of neoplastic tissues by immune cells remain obscure. Using the K14-HPV16 mouse model of squamous carcinogenesis, we report that B cells and humoral immunity foster cancer development by activating Fcgamma receptors (FcgammaRs) on resident and recruited myeloid cells. Stromal accumulation of autoantibodies in premalignant skin, through their interaction with activating FcgammaRs, regulate recruitment, composition, and bioeffector functions of leukocytes in neoplastic tissue, which in turn promote neoplastic progression and subsequent carcinoma development. These findings support a model in which B cells, humoral immunity, and activating FcgammaRs are required for establishing chronic inflammatory programs that promote de novo carcinogenesis., (2010 Elsevier Inc. All rights reserved.)

Published

2010

36. Tumor-induced anorexia and weight loss are mediated by the TGF-beta superfamily cytokine MIC-1.

Author

Johnen H, Lin S, Kuffner T, Brown DA, Tsai VW, Bauskin AR, Wu L, Pankhurst G, Jiang L, Junankar S, Hunter M, Fairlie WD, Lee NJ, Enriquez RF, Baldock PA, Corey E, Apple FS, Murakami MM, Lin EJ, Wang C, During MJ, Sainsbury A, Herzog H, and Breit SN

Subjects

Animals, Anorexia genetics, Anorexia immunology, Anorexia physiopathology, Antibodies administration & dosage, Antibodies physiology, Cell Line, Tumor, Cytokines blood, Cytokines genetics, Cytokines immunology, Growth Differentiation Factor 15, Humans, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Nude, Mice, Transgenic, Prostatic Neoplasms blood, Prostatic Neoplasms immunology, Prostatic Neoplasms physiopathology, Transforming Growth Factor beta genetics, Transforming Growth Factor beta immunology, Transforming Growth Factor beta physiology, Anorexia metabolism, Cytokines physiology, Multigene Family immunology, Prostatic Neoplasms metabolism, Weight Loss genetics, Weight Loss immunology

Abstract

Anorexia and weight loss are part of the wasting syndrome of late-stage cancer, are a major cause of morbidity and mortality in cancer, and are thought to be cytokine mediated. Macrophage inhibitory cytokine-1 (MIC-1) is produced by many cancers. Examination of sera from individuals with advanced prostate cancer showed a direct relationship between MIC-1 abundance and cancer-associated weight loss. In mice with xenografted prostate tumors, elevated MIC-1 levels were also associated with marked weight, fat and lean tissue loss that was mediated by decreased food intake and was reversed by administration of antibody to MIC-1. Additionally, normal mice given systemic MIC-1 and transgenic mice overexpressing MIC-1 showed hypophagia and reduced body weight. MIC-1 mediates its effects by central mechanisms that implicate the hypothalamic transforming growth factor-beta receptor II, extracellular signal-regulated kinases 1 and 2, signal transducer and activator of transcription-3, neuropeptide Y and pro-opiomelanocortin. Thus, MIC-1 is a newly defined central regulator of appetite and a potential target for the treatment of both cancer anorexia and weight loss, as well as of obesity.

Published

2007

37. The propeptide mediates formation of stromal stores of PROMIC-1: role in determining prostate cancer outcome.

Author

Bauskin AR, Brown DA, Junankar S, Rasiah KK, Eggleton S, Hunter M, Liu T, Smith D, Kuffner T, Pankhurst GJ, Johnen H, Russell PJ, Barret W, Stricker PD, Grygiel JJ, Kench JG, Henshall SM, Sutherland RL, and Breit SN

Subjects

Animals, Cell Line, Tumor, Cytokines metabolism, Dogs, Epithelial Cells metabolism, Extracellular Matrix metabolism, Growth Differentiation Factor 15, Humans, Male, Mice, Mice, Inbred BALB C, Mice, Nude, Neoplasm Transplantation, Prognosis, Prostatic Neoplasms pathology, Protein Precursors metabolism, Stromal Cells metabolism, Transplantation, Heterologous, Cytokines biosynthesis, Prostatic Neoplasms metabolism, Protein Precursors biosynthesis

Abstract

The extracellular matrix (ECM) is a reservoir of cellular binding proteins and growth factors that are critical for normal cell behavior, and aberrations in the ECM invariably accompany malignancies such as prostate cancer. Carcinomas commonly overexpress macrophage inhibitory cytokine 1 (MIC-1), a proapoptotic and antitumorigenic transforming growth factor-beta superfamily cytokine. Here we show that MIC-1 is often secreted in an unprocessed propeptide containing form. It is variably processed intracellularly, with unprocessed forms being secreted from several tumor lines, including prostate carcinoma lines, PC-3 and LNCaP. Once secreted, only unprocessed proMIC-1 binds ECM, demonstrating for the first time the occurrence of extracellular stores of MIC-1. The propeptide mediates this association via its COOH-terminal 89 amino acids. Xenograft models bearing tumors secreting various engineered forms of MIC-1 show that the propeptide regulates the balance between ECM stores and circulating serum levels of mature MIC-1 in vivo. The absence of propeptide results in approximately 20-fold increase in serum MIC-1 levels. The significance of stromal MIC-1 stores was evaluated in prostate cancer tissue cores, which show major variation in stromal levels of MIC-1. Stromal MIC-1 levels are linked to prostate cancer outcome following radical prostatectomy, with decreasing stromal levels providing an important independent predictor of disease relapse. In low-grade localized prostate cancer (Gleason sum score < or = 6), the level of MIC-1 stromal stores was the best predictor of future relapse when compared with all other clinicopathologic variables. The secretion and ECM association of unprocessed proMIC-1 is likely to play a central role in modulating local bioavailability of MIC-1 which can affect patient outcome in prostate cancer and other epithelial tumors.

Published

2005