Advanced search
Publication Cover
Expert Opinion on Biological Therapy Volume 14, 2014 - Issue 9
Submit an article Journal homepage
634
Views
17
CrossRef citations to date
0
Altmetric
Reviews

Immunotherapy of cancer stem cells in solid tumors: initial findings and future prospective

Loretta GammaitoniCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy
,
Valeria LeuciCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy
,
Giulia MesianoCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy
,
Lidia GiraudoCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy;University of Torino, Department of Oncology, Torino, [email protected]
,
Maja TodorovicCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy
,
Fabrizio Carnevale-SchiancaCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy
,
Massimo AgliettaCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy;University of Torino, Department of Oncology, Torino, [email protected]
&
Dario SangioloCandiolo Cancer Institute-FPO, IRCCS, Candiolo, 10060, Italy;University of Torino, Department of Oncology, Torino, [email protected]
 show all
Pages 1259-1270 | Published online: 16 May 2014

Bibliography

  • Visvader JE, Lindeman GJ. Cancer stem cells in solid tumours: accumulating evidence and unresolved questions. Nat Rev Cancer 2008;8:755-68
  • Virchow R. Cellular-Pathologie. Arch Pathol Anat Physiol Klin Med. 1855;8:3-39
  • Cohnheim J. Congenitales, quergestreiftes Muskelsarkon Der Nireren. Virchows Arch 1875;65:64
  • Durante F. Nesso fisio-pathologico tra la struttura dei nei materni e la genesi di alcuni tumori maligni. Arch Memori Ed Osservazioni Di Chirugia Practica 1874;11:217-26
  • Bruce WR, Van der Gaag H. A quantitative assay for the number of murine lymphoma cells capable of proliferation in vivo. Nature 1963;199:79-80
  • Lapidot T, Sirard C, Vormoor J, et al. A cell initiating human acute myeloid leukaemia after transplantation into scid mice. Nature 1994;367(6464):645-8
  • Bonnet D, Dick JE. Human acute myeloid leukemia is organized as a hierarchy that originates from a primitive hematopoietic cell. Nat Med 1997;3(7):730-7
  • Al-Hajj M, Wicha MS, Benito-Hernandez A, et al. Prospective identification of tumorigenic breast cancer cells. Proc Natl Acad Sci USA 2003;100(7):3983-8
  • Ponti D, Costa A, Zaffaroni N, et al. Isolation and in vitro propagation of tumorigenic breast cancer cells with stem/progenitor cell properties. Cancer Res 2005;65(13):5506-11
  • Kim CF, Jackson EL, Woolfenden AE, et al. Identification of bronchioalveolar stem cells in normal lung and lung cancer. Cell 2005;121(6):823-35
  • Eramo A, Lotti F, Sette G, et al. Identification and expansion of the tumorigenic lung cancer stem cell population. Cell Death Differ 2008;15(3):504-14
  • O’Brien CA, Pollett A, Gallinger S, Dick JE. A human colon cancer cell capable of initiating tumour growth in immunodeficient mice. Nature 2007;445(7123):106-10
  • Ricci-Vitiani L, Lombardi DG, Pilozzi E, et al. Identification and expansion of human colon-cancer-initiating cells. Nature 2007;445(7123):111-15
  • Collins AT, Berry PA, Hyde C, et al. Prospective identification of tumorigenic prostate cancer stem cells. Cancer Res 2005;65(23):10946-51
  • Szotek PP, Pieretti-Vanmarcke R, Masiakos PT, et al. Ovarian cancer side population defines cells with stem cell-like characteristics and mullerian inhibiting substance responsiveness. Proc Natl Acad Sci USA 2006;103(30):11154-9
  • Zhang S, Balch C, Chan MW, et al. Identification and characterization of ovarian cancer-initiating cells from primary human tumors. Cancer Res 2008;68(11):4311-20
  • Curley MD, Therrien VA, Cummings CL, et al. Cd133 expression defines a tumor initiating cell population in primary human ovarian cancer. Stem Cells 2009;27(12):2875-83
  • Piccirillo SG, Reynolds BA, Zanetti N, et al. Bone morphogenetic proteins inhibit the tumorigenic potential of human brain tumour-initiating cells. Nature 2006;444(7120):761-5
  • Singh SK, Hawkins C, Clarke ID, et al. Identification of human brain tumour initiating cells. Nature 2004;432(7015):396-401
  • Fang D, Nguyen TK, Leishear K, et al. A tumorigenic subpopulation with stem cell properties in melanomas. Cancer Res 2005;65(20):9328-37
  • La Porta C. Cancer stem cells: lessons from melanoma. Stem Cell Rev 2009;5(1):61-5
  • Quintana E, Shackleton M, Sabel MS, et al. Efficient tumour formation by single human melanoma cells. Nature 2008;456(7222):593-8
  • Malanchi I, Peinado H, Kassen D, et al. Cutaneous cancer stem cell maintenance is dependent on beta-catenin signalling. Nature 2008;452(7187):650-3
  • Prince ME, Sivanandan R, Kaczorowski A, et al. Identification of a subpopulation of cells with cancer stem cell properties in head and neck squamous cell carcinoma. Proc Natl Acad Sci USA 2007;104(3):973-8
  • Li C, Heidt DG, Dalerba P, et al. Identification of pancreatic cancer stem cells. Cancer Res 2007;67(3):1030-7
  • Wilson A, Laurenti E, Oser G, et al. Hematopoietic stem cells reversibly switch from dormancy to self-renewal during homeostasis and repair. Cell 2008;135(6):1118-29
  • Fuchs E. The tortoise and the hair: slow-cycling cells in the stem cell race. Cell 2009;137(5):811-19
  • Clarke MF, Dick JE, Dirks PB, et al. Cancer stem cells--perspectives on current status and future directions: aacr workshop on cancer stem cells. Cancer Res 2006;66(19):9339-44
  • Li L, Borodyansky L, Yang Y. Genomic instability en route to and from cancer stem cells. Cell Cycle 2009;8(7):1000-2
  • Rapp UR, Ceteci F, Schreck R. Oncogene-induced plasticity and cancer stem cells. Cell Cycle 2008;7(1):45-51
  • Reya T, Morrison SJ, Clarke MF, Weissman IL. Stem cells, cancer, and cancer stem cells. Nature 2001;414(6859):105-11
  • Alison MR, Lim SM, Nicholson LJ. Cancer stem cells: problems for therapy? J Pathol 2011;223(2):147-61
  • Calabrese C, Poppleton H, Kocak M, et al. A perivascular niche for brain tumor stem cells. Cancer Cell 2007;11(1):69-82
  • Li L, Neaves WB. Normal stem cells and cancer stem cells: the niche matters. Cancer Res 2006;66(9):4553-7
  • Takaishi S, Okumura T, Tu S, et al. Identification of gastric cancer stem cells using the cell surface marker Cd44. Stem Cells 2009;27(5):1006-20
  • Tirino V, Desiderio V, d’Aquino R, et al. Detection and characterization of Cd133+ cancer stem cells in human solid tumours. PLoS One 2008;3(10):e3469
  • Pearce DJ, Bonnet D. The combined use of hoechst efflux ability and aldehyde dehydrogenase activity to identify murine and human hematopoietic stem cells. Exp Hematol 2007;35(9):1437-46
  • Rybak AP, He L, Kapoor A, et al. Characterization of sphere-propagating cells with stem-like properties from Du145 prostate cancer cells. Biochim Biophys Acta 2011;1813(5):683-94
  • Dean M, Fojo T, Bates S. Tumour stem cells and drug resistance. Nat Rev Cancer 2005;5(4):275-84
  • Suvà ML, Riggi N, Stehle JC, et al. Identification of cancer stem cells in Ewing’s sarcoma. Cancer Res 2009;69(5):1776-81
  • Rosen JM, Jordan CT. The increasing complexity of the cancer stem cell paradigm. Science 2009;324(5935):1670-3
  • Tirino V, Desiderio V, Paino F, et al. Cancer stem cells in solid tumors: an overview and new approaches for their isolation and characterization. FASEB J 2013;27(1):13-24
  • Awad O, Yustein JT, Shah P, et al. High Aldh activity identifies chemotherapy-resistant ewing’s sarcoma stem cells that retain sensitivity to Ews-Fli1 inhibition. PLoS One 2010;5(11):e13943
  • Hu Y, Yu X, Liu S. Cancer stem cells: a shifting subpopulation of cells with stemness? Med Hypotheses 2013;80(5):649-55
  • La Porta CA. Thoughts about cancer stem cells in solid tumors. World J Stem Cells 2012;4(3):17-20
  • Graham SM, Jørgensen HG, Allan E, et al. Primitive, quiescent, Philadelphia-positive stem cells from patients with chronic myeloid leukemia are insensitive to Sti571 in vitro. Blood 2002;99(1):319-25
  • Januchowski R, Wojtowicz K, Zabel M. The role of aldehyde dehydrogenase (Aldh) in cancer drug resistance. Biomed Pharmacother 2013;67(7):669-80
  • Mohrin M, Bourke E, Alexander D, et al. Hematopoietic stem cell quiescence promotes error-prone DNA repair and mutagenesis. Cell Stem Cell 2010;7(2):174-85
  • Viale A, De Franco F, Orleth A, et al. Cell-cycle restriction limits DNA damage and maintains self-renewal of leukaemia stem cells. Nature 2009;457(7225):51-6
  • Hirschmann-Jax C, Foster AE, Wulf GG, et al. A distinct side population of cells with high drug efflux capacity in human tumor cells. Proc Natl Acad Sci USA 2004;101(39):14228-33
  • Zhou S, Schuetz JD, Bunting KD, et al. The Abc transporter Bcrp1/Abcg2 is expressed in a wide variety of stem cells and is a molecular determinant of the side-population phenotype. Nat Med 2001;7(9):1028-34
  • Allen JE, Hart LS, Dicker DT, et al. Visualization and enrichment of live putative cancer stem cell populations following P53 inactivation or Bax deletion using non-toxic fluorescent dyes. Cancer Biol Ther 2009;8(22):2194-205
  • Braut-Boucher F, Pichon J, Rat P, et al. A non-isotopic, highly sensitive, fluorimetric, cell-cell adhesion microplate assay using calcein am-labeled lymphocytes. J Immunol Methods 1995;178(1):41-51
  • Telford WG, Bradford J, Godfrey W, et al. Side population analysis using a violet-excited cell-permeable Dna binding dye. Stem Cells 2007;25(4):1029-36
  • Richichi C, Brescia P, Alberizzi V, et al. Marker-independent method for isolating slow-dividing cancer stem cells in human glioblastoma. Neoplasia 2013;15(7):840-7
  • Salcido CD, Larochelle A, Taylor BJ, et al. Molecular characterisation of side population cells with cancer stem cell-like characteristics in small-cell lung cancer. Br J Cancer 2010;102(11):1636-44
  • Sullivan JP, Spinola M, Dodge M, et al. Aldehyde dehydrogenase activity selects for lung adenocarcinoma stem cells dependent on notch signaling. Cancer Res 2010;70(23):9937-48
  • Vermeulen L, de Sousa e Melo F, Richel DJ, Medema JP. The developing cancer stem-cell model: clinical challenges and opportunities. Lancet Oncol 2012;13(2):e83-9
  • Kumar SM, Liu S, Lu H, et al. Acquired cancer stem cell phenotypes through Oct4-mediated dedifferentiation. Oncogene 2012;31(47):4898-911
  • Levings PP, McGarry SV, Currie TP, et al. Expression of an exogenous human Oct-4 promoter identifies tumor-initiating cells in osteosarcoma. Cancer Res 2009;69(14):5648-55
  • Chiou SH, Wang ML, Chou YT, et al. Coexpression of Oct4 and nanog enhances malignancy in lung adenocarcinoma by inducing cancer stem cell-like properties and epithelial-mesenchymal transdifferentiation. Cancer Res 2010;70(24):10433-44
  • Gerrard L, Zhao D, Clark AJ, Cui W. Stably transfected human embryonic stem cell clones express Oct4-specific green fluorescent protein and maintain self-renewal and pluripotency. Stem Cells 2005;23(1):124-33
  • Gammaitoni L, Giraudo L, Leuci V, et al. Effective activity of cytokine-induced killer cells against autologous metastatic melanoma including cells with stemness features. Clin Cancer Res 2013;19(16):4347-58
  • Sangiolo D, Mesiano G, Gammaitoni L, et al. Cytokine-Induced killer cells eradicate bone and soft-tissue sarcomas. Cancer Res 2014;74(1):119-29
  • Francipane MG, Chandler J, Lagasse E. Cancer stem cells: a moving target. Curr Pathobiol Rep 2013;1(2):111-18
  • Ashley N. Regulation of intestinal cancer stem cells. Cancer Lett 2013;338(1):120-6
  • Greenberg NM, DeMayo F, Finegold MJ, et al. Prostate cancer in a transgenic mouse. Proc Natl Acad Sci USA 1995;92(8):3439-43
  • Jachetti E, Mazzoleni S, Grioni M, et al. Prostate cancer stem cells are targets of both innate and adaptive immunity and elicit tumor-specific immune responses. Oncoimmunology 2013;2(5):e24520
  • Garcia-Hernandez MeL, Gray A, Hubby B, et al. Prostate stem cell antigen vaccination induces a long-term protective immune response against prostate cancer in the absence of autoimmunity. Cancer Res 2008;68(3):861-9
  • Gu Z, Thomas G, Yamashiro J, et al. Prostate stem cell antigen (Psca) expression increases with high gleason score, advanced stage and bone metastasis in prostate cancer. Oncogene 2000;19(10):1288-96
  • Bahrenberg G, Brauers A, Joost HG, Jakse G. Reduced expression of Psca, a member of the Ly-6 family of cell surface antigens, in bladder, esophagus, and stomach tumors. Biochem Biophys Res Commun 2000;275(3):783-8
  • Pellegatta S, Poliani PL, Corno D, et al. Neurospheres enriched in cancer stem-like cells are highly effective in eliciting a dendritic cell-mediated immune response against malignant gliomas. Cancer Res 2006;66(21):10247-52
  • Brown CE, Starr R, Martinez C, et al. Recognition and killing of brain tumor stem-like initiating cells by Cd8+ cytolytic T cells. Cancer Res 2009;69(23):8886-93
  • Xu Q, Liu G, Yuan X, et al. Antigen-specific T-cell response from dendritic cell vaccination using cancer stem-like cell-associated antigens. Stem Cells 2009;27(8):1734-40
  • Vik-Mo EO, Nyakas M, Mikkelsen BV, et al. Therapeutic vaccination against autologous cancer stem cells with Mrna-transfected dendritic cells in patients with glioblastoma. Cancer Immunol Immunother 2013;62(9):1499-509
  • Ning N, Pan Q, Zheng F, et al. Cancer stem cell vaccination confers significant antitumor immunity. Cancer Res 2012;72(7):1853-64
  • Di Tomaso T, Mazzoleni S, Wang E, et al. Immunobiological characterization of cancer stem cells isolated from glioblastoma patients. Clin Cancer Res 2010;16(3):800-13
  • Volonté A, Di Tomaso T, Spinelli M, et al. Cancer-initiating cells from colorectal cancer patients escape from T cell-mediated immunosurveillance in vitro through membrane-bound Il-4. J Immunol 2014;192(1):523-32
  • Francipane MG, Alea MP, Lombardo Y, et al. Crucial role of interleukin-4 in the survival of colon cancer stem cells. Cancer Res 2008;68(11):4022-5
  • Deonarain MP, Kousparou CA, Epenetos AA. Antibodies targeting cancer stem cells: a new paradigm in immunotherapy? MAbs 2009;1(1):12-25
  • Smith LM, Nesterova A, Ryan MC, et al. Cd133/prominin-1 is a potential therapeutic target for antibody-drug conjugates in hepatocellular and gastric cancers. Br J Cancer 2008;99(1):100-9
  • Goel S, Bauer RJ, Desai K, et al. Pharmacokinetic and safety study of subcutaneously administered weekly Ing-1, a human engineered monoclonal antibody targeting human epcam, in patients with advanced solid tumors. Ann Oncol 2007;18(10):1704-7
  • Naundorf S, Preithner S, Mayer P, et al. In vitro and in vivo activity of Mt201, a fully human monoclonal antibody for pancarcinoma treatment. Int J Cancer 2002;100(1):101-10
  • Oberneder R, Weckermann D, Ebner B, et al. A phase I study with adecatumumab, a human antibody directed against epithelial cell adhesion molecule, in hormone refractory prostate cancer patients. Eur J Cancer 2006;42(15):2530-8
  • Folkins C, Man S, Xu P, et al. Anticancer therapies combining antiangiogenic and tumor cell cytotoxic effects reduce the tumor stem-like cell fraction in glioma xenograft tumors. Cancer Res 2007;67(8):3560-4
  • Ottaiano A, di Palma A, Napolitano M, et al. Inhibitory effects of anti-Cxcr4 antibodies on human colon cancer cells. Cancer Immunol Immunother 2005;54(8):781-91
  • Sneddon JB, Werb Z. Location, location, location: the cancer stem cell niche. Cell Stem Cell 2007;1(6):607-11
  • Emlet DR, Gupta P, Holgado-Madruga M, et al. Targeting a glioblastoma cancer stem-cell population defined by Egf receptor variant Iii. Cancer Res 2014;74(4):1238-49
  • Farag SS, Caligiuri MA. Human natural killer cell development and biology. Blood Rev 2006;20(3):123-37
  • Caligiuri MA. Human natural killer cells. Blood 2008;112(3):461-9
  • Moretta L, Moretta A. Unravelling natural killer cell function: triggering and inhibitory human Nk receptors. EMBO J 2004;23(2):255-9
  • Lanier LL. Up on the tightrope: natural killer cell activation and inhibition. Nat Immunol 2008;9(5):495-502
  • Tallerico R, Todaro M, Di Franco S, et al. Human Nk cells selective targeting of colon cancer-initiating cells: a role for natural cytotoxicity receptors and Mhc class I molecules. J Immunol 2013;190(5):2381-90
  • Sandel MH, Speetjens FM, Menon AG, et al. Natural killer cells infiltrating colorectal cancer and Mhc class I expression. Mol Immunol 2005;42(4):541-6
  • Jewett A, Tseng HC, Arasteh A, et al. Natural killer cells preferentially target cancer stem cells; role of monocytes in protection against Nk cell mediated lysis of cancer stem cells. Curr Drug Deliv 2012;9(1):5-16
  • Castriconi R, Daga A, Dondero A, et al. Nk cells recognize and kill human glioblastoma cells with stem cell-like properties. J Immunol 2009;182(6):3530-9
  • Pietra G, Manzini C, Vitale M, et al. Natural killer cells kill human melanoma cells with characteristics of cancer stem cells. Int Immunol 2009;21(7):793-801
  • Todaro M, D’Asaro M, Caccamo N, et al. Efficient killing of human colon cancer stem cells by gammadelta T lymphocytes. J Immunol 2009;182(11):7287-96
  • Todaro M, Orlando V, Cicero G, et al. Chemotherapy sensitizes colon cancer initiating cells to Vγ9vδ2 T cell-mediated cytotoxicity. PLoS One 2013;8(6):e65145
  • Constant P, Davodeau F, Peyrat MA, et al. Stimulation of human gamma delta T cells by nonpeptidic mycobacterial ligands. Science 1994;264(5156):267-70
  • Vermijlen D, Ellis P, Langford C, et al. Distinct cytokine-driven responses of activated blood gammadelta T cells: insights into unconventional T cell pleiotropy. J Immunol 2007;178(7):4304-14
  • Wesch D, Glatzel A, Kabelitz D. Differentiation of resting human peripheral blood gamma delta T cells toward Th1- or Th2-phenotype. Cell Immunol 2001;212(2):110-17
  • Caccamo N, La Mendola C, Orlando V, et al. Differentiation, phenotype, and function of interleukin-17-producing human Vgamma9vdelta2 T cells. Blood 2011;118(1):129-38
  • Fiore F, Castella B, Nuschak B, et al. Enhanced ability of dendritic cells to stimulate innate and adaptive immunity on short-term incubation with zoledronic acid. Blood 2007;110(3):921-7
  • Hamilton E, Clay TM, Blackwell KL. New perspectives on zoledronic acid in breast cancer: potential augmentation of anticancer immune response. Cancer Invest 2011;29(8):533-41
  • Nussbaumer O, Gruenbacher G, Gander H, Thurnher M. Dc-like cell-dependent activation of human natural killer cells by the bisphosphonate zoledronic acid is regulated by gammaelta T lymphocytes. Blood 2011;118(10):2743-51
  • Coscia M, Quaglino E, Iezzi M, et al. Zoledronic acid repolarizes tumour-associated macrophages and inhibits mammary carcinogenesis by targeting the mevalonate pathway. J Cell Mol Med 2010;14(12):2803-15
  • Mesiano G, Todorovic M, Gammaitoni L, et al. Cytokine-induced killer (Cik) cells as feasible and effective adoptive immunotherapy for the treatment of solid tumors. Expert Opin Biol Ther 2012;12(6):673-84
  • Schmidt-Wolf IG, Lefterova P, Mehta BA, et al. Phenotypic characterization and identification of effector cells involved in tumor cell recognition of cytokine-induced killer cells. Exp Hematol 1993;21(13):1673-9
  • Lu PH, Negrin RS. A novel population of expanded human Cd3+Cd56+ cells derived from T cells with potent in vivo antitumor activity in mice with severe combined immunodeficiency. J Immunol 1994;153(4):1687-96
  • Baker J, Verneris MR, Ito M, et al. Expansion of cytolytic Cd8(+) natural killer T cells with limited capacity for graft-versus-host disease induction due to interferon gamma production. Blood 2001;97(10):2923-31
  • Verneris MR, Karami M, Baker J, et al. Role of Nkg2d signaling in the cytotoxicity of activated and expanded Cd8+ T cells. Blood 2004;103(8):3065-72
  • Topalian SL, Hodi FS, Brahmer JR, et al. Safety, activity, and immune correlates of anti-Pd-1 antibody in cancer. N Engl J Med 2012;366(26):2443-54
  • Wolchok JD, Neyns B, Linette G, et al. Ipilimumab monotherapy in patients with pretreated advanced melanoma: a randomised, double-blind, multicentre, phase 2, dose-ranging study. Lancet Oncol 2010;11(2):155-64
  • Rizzo P, Osipo C, Foreman K, et al. Rational targeting of notch signaling in cancer. Oncogene 2008;27(38):5124-31
  • de Sousa EM, Vermeulen L, Richel D, Medema JP. Targeting Wnt signaling in colon cancer stem cells. Clin Cancer Res 2011;17(4):647-53
  • Korkaya H, Kim GI, Davis A, et al. Activation of an Il6 inflammatory loop mediates trastuzumab resistance in Her2+ breast cancer by expanding the cancer stem cell population. Mol Cell 2012;47(4):570-84
  • Morgan RA, Yang JC, Kitano M, et al. Case report of a serious adverse event following the administration of T cells transduced with a chimeric antigen receptor recognizing Erbb2. Mol Ther 2010;18(4):843-51
  • Leuci V, Mesiano G, Gammaitoni L, et al. Genetically redirected T lymphocytes for adoptive immunotherapy of solid tumors. Curr Gene Ther 2014;14(1):52-62
  • Linette GP, Stadtmauer EA, Maus MV, et al. Cardiovascular toxicity and titin cross-reactivity of affinity-enhanced T cells in myeloma and melanoma. Blood 2013;122(6):863-71

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.