Stochastic gene expression, disruption of tissue averaging effects and cancer as a disease of development.

Despite the extensive literature describing the somatic genetic alterations in cancer cells, the precise origins of cancer cells remain controversial. In this article, I suggest that the etiology of cancer and the generation of genetic instability in cancer cells should be considered in the light of recent findings on both the stochastic nature of gene expression and its regulation at tissue level. By postulating that gene expression is intrinsically probabilistic and that stabilization of gene expression arises by cellular interactions in "morphogenetic fields", development and cellular differentiation can be rethought in an evolutionary perspective. In particular, this article proposes that disruptions of cellular interactions are the initial source of abnormal gene expression in cancer cells. Consequently, cancer phenotypes such as genetic and epigenetic instabilities, and also the presence of cells with stem cell-like properties, may result from inaccurate and aberrant patterns of gene expression generated by microenvironmental alterations. Finally, the therapeutic implications of this view are discussed.

[1]  Bertrand Laforge,et al.  Modeling embryogenesis and cancer: an approach based on an equilibrium between the autostabilization of stochastic gene expression and the interdependence of cells for proliferation. , 2005, Progress in biophysics and molecular biology.

[2]  T. Elston,et al.  Stochasticity in gene expression: from theories to phenotypes , 2005, Nature Reviews Genetics.

[3]  Rudolf Jaenisch,et al.  Ectopic Expression of Oct-4 Blocks Progenitor-Cell Differentiation and Causes Dysplasia in Epithelial Tissues , 2005, Cell.

[4]  J. Cigudosa,et al.  Spontaneous human adult stem cell transformation. , 2005, Cancer research.

[5]  J. Trosko,et al.  The Emperor Wears No Clothes in the Field of Carcinogen Risk Assessment: Ignored Concepts in Cancer Risk Assessment , 2005 .

[6]  L. Olson,et al.  Oct4 expression in adult human stem cells: evidence in support of the stem cell theory of carcinogenesis. , 2004, Carcinogenesis.

[7]  S. Gerson,et al.  DNA repair defects in stem cell function and aging. , 2005, Annual review of medicine.

[8]  David M. Berman,et al.  Tissue repair and stem cell renewal in carcinogenesis , 2004, Nature.

[9]  D. Zipori,et al.  The nature of stem cells: state rather than entity , 2004, Nature Reviews Genetics.

[10]  N. Fusenig,et al.  Friends or foes — bipolar effects of the tumour stroma in cancer , 2004, Nature Reviews Cancer.

[11]  N. Rahman,et al.  Constitutional aneuploidy and cancer predisposition caused by biallelic mutations in BUB1B , 2004, Nature Genetics.

[12]  Ana M Soto,et al.  The somatic mutation theory of cancer: growing problems with the paradigm? , 2004, BioEssays : news and reviews in molecular, cellular and developmental biology.

[13]  J. Stelling,et al.  Robustness of Cellular Functions , 2004, Cell.

[14]  M. Lohuizen,et al.  Stem Cells and Cancer The Polycomb Connection , 2004, Cell.

[15]  Rudolf Jaenisch,et al.  Reprogramming of a melanoma genome by nuclear transplantation. , 2004, Genes & development.

[16]  S. Sell,et al.  Stem cell origin of cancer and differentiation therapy. , 2004, Critical reviews in oncology/hematology.

[17]  F. Domann,et al.  Flipping the epigenetic switch. , 2004, The American journal of pathology.

[18]  G. Prindull,et al.  Environmental guidance of normal and tumor cell plasticity: epithelial mesenchymal transitions as a paradigm. , 2004, Blood.

[19]  S. Gerson MGMT: its role in cancer aetiology and cancer therapeutics , 2004, Nature Reviews Cancer.

[20]  S. Moody To Differentiate or Not to Differentiate: Regulation of Cell Fate Decisions by Being in the Right Place at the Right Time , 2004, Cell cycle.

[21]  Ana M Soto,et al.  The stroma as a crucial target in rat mammary gland carcinogenesis , 2004, Journal of Cell Science.

[22]  T. Hubbard,et al.  A census of human cancer genes , 2004, Nature Reviews Cancer.

[23]  M. Nowak,et al.  Problems of somatic mutation and cancer. , 2004, BioEssays : news and reviews in molecular, cellular and developmental biology.

[24]  D. Felsher Reversibility of oncogene-induced cancer. , 2004, Current opinion in genetics & development.

[25]  J. Thomson,et al.  Recurrent gain of chromosomes 17q and 12 in cultured human embryonic stem cells , 2004, Nature Biotechnology.

[26]  P. Pandolfi,et al.  The chromosome make-up of mouse embryonic stem cells is predictive of somatic and germ cell chimaerism , 2004, Transgenic Research.

[27]  Alexei Kurakin,et al.  Self-organization vs Watchmaker: stochastic gene expression and cell differentiation , 2004, Development Genes and Evolution.

[28]  Mina J Bissell,et al.  Tumor reversion: Correction of malignant behavior by microenvironmental cues , 2003, International journal of cancer.

[29]  C. Bever,et al.  Hematopoietic progenitors express neural genes , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[30]  Cynthia Hawkins,et al.  Identification of a cancer stem cell in human brain tumors. , 2003, Cancer research.

[31]  W. Thilly Have environmental mutagens caused oncomutations in people? , 2003, Nature Genetics.

[32]  G. Sauvageau,et al.  Bmi-1 determines the proliferative capacity of normal and leukaemic stem cells , 2003, Nature.

[33]  P. Duesberg,et al.  Multistep Carcinogenesis: A Chain Reaction of Aneuploidizations , 2003, Cell cycle.

[34]  Mads Kærn,et al.  Noise in eukaryotic gene expression , 2003, Nature.

[35]  S. Morrison,et al.  Prospective identification of tumorigenic breast cancer cells , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[36]  T. Bestor Unanswered Questions about the Role of Promoter Methylation in Carcinogenesis , 2003, Annals of the New York Academy of Sciences.

[37]  J. Trosko The role of stem cells and gap junctional intercellular communication in carcinogenesis. , 2003, Journal of biochemistry and molecular biology.

[38]  L. Jaffe Epigenetic theories of cancer initiation. , 2003, Advances in cancer research.

[39]  Rachel Jones,et al.  Behavioural genetics: Worms gang up on bacteria , 2002, Nature Reviews Neuroscience.

[40]  Donald E Ingber,et al.  Cancer as a disease of epithelial-mesenchymal interactions and extracellular matrix regulation. , 2002, Differentiation; research in biological diversity.

[41]  Mina J Bissell,et al.  The organizing principle: microenvironmental influences in the normal and malignant breast. , 2002, Differentiation; research in biological diversity.

[42]  J. Trosko,et al.  Gap junctions as targets for cancer chemoprevention and chemotherapy. , 2002, Current drug targets.

[43]  William C Hahn,et al.  Rules for making human tumor cells. , 2002, The New England journal of medicine.

[44]  E Georg Luebeck,et al.  Multistage carcinogenesis and the incidence of colorectal cancer , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[45]  I. Black,et al.  Adult bone marrow stromal stem cells express germline, ectodermal, endodermal, and mesodermal genes prior to neurogenesis , 2002, Journal of neuroscience research.

[46]  John T. Dimos,et al.  A Stem Cell Molecular Signature , 2002, Science.

[47]  D. Melton,et al.  "Stemness": Transcriptional Profiling of Embryonic and Adult Stem Cells , 2002, Science.

[48]  P. Swain,et al.  Stochastic Gene Expression in a Single Cell , 2002, Science.

[49]  Jean Marx,et al.  Debate Surges Over the Origins of Genomic Defects in Cancer , 2002, Science.

[50]  Catherine M. Verfaillie,et al.  Pluripotency of mesenchymal stem cells derived from adult marrow , 2002, Nature.

[51]  Peter A. Jones,et al.  The fundamental role of epigenetic events in cancer , 2002, Nature Reviews Genetics.

[52]  Ertugrul M. Ozbudak,et al.  Regulation of noise in the expression of a single gene , 2002, Nature Genetics.

[53]  W. Bodmer,et al.  How many mutations in a cancer? , 2002, The American journal of pathology.

[54]  Giovanni Parmigiani,et al.  Prevalence of somatic alterations in the colorectal cancer cell genome , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[55]  W. Hahn,et al.  Derivation of human tumor cells in vitro without widespread genomic instability. , 2001, Cancer research.

[56]  B. Hallet,et al.  Playing Dr Jekyll and Mr Hyde: combined mechanisms of phase variation in bacteria. , 2001, Current opinion in microbiology.

[57]  R. Jaenisch,et al.  Epigenetic Instability in ES Cells and Cloned Mice , 2001, Science.

[58]  T. Tlsty,et al.  Stromal cells can contribute oncogenic signals. , 2001, Seminars in cancer biology.

[59]  D. Lf Return of de-differentiation: why cancer is a developmental disease. , 2001 .

[60]  David A. Hume,et al.  Probability in transcriptional regulation and its implications for leukocyte differentiation and inducible gene expression , 2000 .

[61]  G. Bratthauer,et al.  Concurrent and independent genetic alterations in the stromal and epithelial cells of mammary carcinoma: implications for tumorigenesis. , 2000, Cancer research.

[62]  S. Leibler,et al.  Biological rhythms: Circadian clocks limited by noise , 2000, Nature.

[63]  C Lengauer,et al.  Genetic instability and darwinian selection in tumours. , 1999, Trends in cell biology.

[64]  V. Weaver,et al.  Tissue structure, nuclear organization, and gene expression in normal and malignant breast. , 1999, Cancer research.

[65]  D. Felsher,et al.  Transient excess of MYC activity can elicit genomic instability and tumorigenesis. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[66]  A. Arkin,et al.  It's a noisy business! Genetic regulation at the nanomolar scale. , 1999, Trends in genetics : TIG.

[67]  M. Nadji,et al.  Suppression of human prostate cancer cell growth by forced expression of connexin genes , 1999 .

[68]  K. Kinzler,et al.  Genetic instabilities in human cancers , 1998, Nature.

[69]  A. Arkin,et al.  Stochastic kinetic analysis of developmental pathway bifurcation in phage lambda-infected Escherichia coli cells. , 1998, Genetics.

[70]  T. Enver,et al.  Do stem cells play dice? , 1998, Blood.

[71]  J. Trosko,et al.  Cell-cell communication in carcinogenesis. , 1998, Frontiers in bioscience : a journal and virtual library.

[72]  G. Zlokarnik,et al.  Quantitation of transcription and clonal selection of single living cells with beta-lactamase as reporter. , 1998, Science.

[73]  K. Willecke,et al.  High incidence of spontaneous and chemically induced liver tumors in mice deficient for connexin32 , 1997, Current Biology.

[74]  J. Kupiec A Darwinian theory for the origin of cellular differentiation , 1997, Molecular and General Genetics MGG.

[75]  M. Loda,et al.  Methylation of the hMLH1 promoter correlates with lack of expression of hMLH1 in sporadic colon tumors and mismatch repair-defective human tumor cell lines. , 1997, Cancer research.

[76]  D. Kioussis,et al.  Random activation of a transgene under the control of a hybrid hCD2 locus control region/Ig enhancer regulatory element. , 1995, The EMBO journal.

[77]  Iva Greenwald,et al.  Reciprocal changes in expression of the receptor lin-12 and its ligand lag-2 prior to commitment in a C. elegans cell fate decision , 1994, Cell.

[78]  A. Giaccia,et al.  The human Ha-ras oncogene induces genomic instability in murine fibroblasts within one cell cycle. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[79]  I. Ross,et al.  Transcription of individual genes in eukaryotic cells occurs randomly and infrequently , 1994, Immunology and cell biology.

[80]  K. Kinzler,et al.  Clues to the pathogenesis of familial colorectal cancer. , 1993, Science.

[81]  L. Loeb,et al.  Mutator phenotype may be required for multistage carcinogenesis. , 1991, Cancer research.

[82]  E Farber,et al.  Cellular adaptation in the origin and development of cancer. , 1991, Cancer research.

[83]  P. Simpson,et al.  The choice of cell fate in the epidermis of Drosophila , 1991, Cell.

[84]  C. Stern,et al.  Origin of cells giving rise to mesoderm and endoderm in chick embryo , 1990, Nature.

[85]  Geraldine Seydoux,et al.  Cell autonomy of lin-12 function in a cell fate decision in C. elegans , 1989, Cell.

[86]  J. Kupiec Gene regulation and DNA C-value paradox: a model based on diffusion of regulatory molecules. , 1989, Medical hypotheses.

[87]  J. Gurdon,et al.  A community effect in animal development , 1988, Nature.

[88]  Pierce Gb,et al.  Tumors as caricatures of the process of tissue renewal: prospects for therapy by directing differentiation. , 1988 .

[89]  M. Hollstein,et al.  Selective lack of intercellular communication between transformed and nontransformed cells as a common property of chemical and oncogene transformation of BALB/c 3T3 cells. , 1987, Cancer research.

[90]  H. Rubin Cancer as a dynamic developmental disorder. , 1985, Cancer research.

[91]  E. Farber,et al.  Pre-cancerous steps in carcinogenesis. Their physiological adaptive nature. , 1984, Biochimica et biophysica acta.

[92]  A. Feinberg,et al.  Hypomethylation distinguishes genes of some human cancers from their normal counterparts , 1983, Nature.

[93]  P. Nowell The clonal evolution of tumor cell populations. , 1976, Science.

[94]  K. Illmensee,et al.  Normal genetically mosaic mice produced from malignant teratocarcinoma cells. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[95]  L. Sachs,et al.  In vitro transformation of normal cells to tumor cells by carcinogenic hydrocarbons. , 1965, Journal of the National Cancer Institute.