Volume 70 begins with two Foundations in Cancer Research articles, a staple of the Advances in Cancer Research series. The first article by Michael Stoker presents a review of some of the early advances made by cancer cell biology researchers. The second article by Emmanuel Farber describes the methods by which researchers delineate the phenotype of cells and ways to alter these phenotypes to prevent or delay carcinomas. Chidambaram and Dean illustrate the tumors and associated malformations of nevoid basal cell carcinoma. Koli and Keski-Oja review the effects of how transforming growth factor-b regulates cell proliferation, differentiation, and morphogenesis and its regulation by the steroid hormone superfamily. Jean-Marc Lemaitre and colleagues discuss the involvement of protooncogenes in the control of the cell cycle and embryonic development with specific attention paid to c-Myc expression and c-Myc function. A review of the various studies involving tumor-infiltrating lymphocytes and their possible role in cancer prevention is presented by Steven Rosenberg and co-workers.
Finally, Bruce Ponder and Darrin Smith review the genetic and biological aspects of multiple endocrine neoplasia type-2 syndromes and the phenotypes associated with ret mutations.
Volume 70 begins with two Foundations in Cancer Research articles, a staple of the Advances in Cancer Research series. The first article by Michael Stoker presents a review of some of the early advances made by cancer cell biology researchers. The second article by Emmanuel Farber describes the methods by which researchers delineate the phenotype of cells and ways to alter these phenotypes to prevent or delay carcinomas. Chidambaram and Dean illustrate the tumors and associated malformations of nevoid basal cell carcinoma. Koli and Keski-Oja review the effects of how transforming growth factor-b regulates cell proliferation, differentiation, and morphogenesis and its regulation by the steroid hormone superfamily. Jean-Marc Lemaitre and colleagues discuss the involvement of protooncogenes in the control of the cell cycle and embryonic development with specific attention paid to c-Myc expression and c-Myc function. A review of the various studies involving tumor-infiltrating lymphocytes and their possible role in cancer prevention is presented by Steven Rosenberg and co-workers.
Finally, Bruce Ponder and Darrin Smith review the genetic and biological aspects of multiple endocrine neoplasia type-2 syndromes and the phenotypes associated with ret mutations.
Foundations in Cancer Research:
M. Stoker, Fundamentals of Cancer Cell Biology:
Introduction.
Antecedents.
Autobiographical Note.
Foundations of Tissue Culture.
Foundations of Cell Culture.
Clones.
The Immortals: Stable Cell Lines.
The Mortals: Cell Strains.
Food for Cells in Culture.
Growth Factors.
Short-Range Cell Interactions.
Junctional Communication.
Cell and Substrate Adhesion.
The Tumor Viruses.
Cell Fusion.
Conclusion.
References.
E. Farber, The Step-by-Step Development of Epithelial Cancer: From
Phenotype to Genotype:
Cancer Development as Basic to Cancer Research.
Patterns of Development of Epithelial Cancers.
A Working Hypothesis.
The Phenotypes.
The Genotypes.
The Challenge.
References.
A. Chidambaram and M. Dean, Genetics of the Nevoid Basal Cell
Carcinoma Syndrome:
Introduction.
Clinicopathological Features of NBCCS.
Genetics of NBCCS.
Strategies for Isolation of Candidate Genes.
Discussion.
References.
K. Koli and J. Keski-Oja, Transforming Growth Factor-( System and
Its Regulation by Members of the Steroid-Thyroid Hormone
Superfamily:
Introduction.
Transforming Growth Factor-(. Dual Effects of TGF-(on Cell
Proliferation.
Regulation of Cell Differentiation by TGF-(. TGF-(in the Regulation
of the Immune System.
The Steroid-Thyroid Hormone Superfamily.
Steroid Hormone Regulation of TGF-( Isoform Expression.
Regulation of Plasminogen Activation by Steroids.
Summary.
References.
J.-M. Lemaitre, R.S. Buckle, and M. Mechali, c-Mycin the Control of
Cell Proliferation and Embryonic Development:
Introduction.
The c-myc Gene.
Structural and Functional Features of the c-Myc Protein.
c-Myc as a Transcription Factor.
c-Myc and Cell Proliferation.
c-Myc in Embryonic Development.
c-Myc and Differentiation.
c-Myc and Apoptosis.
References.
S.A. Rosenberg, Y. Kawakami, P.F. Robbins, and R.-F. Wang,
Identification of the Genes Encoding Cancer Antigens: Implications
for Cancer Immunotherapy.
Introduction.
Methodology.
Human Melanoma Antigens Recognized by T Cells.
Cancer Therapies Based on the Molecular Identification of Cancer
Antigens.
References.
B.A.J. Ponder and D. Smith, The MEN II Syndromes and the Role of
the ret Proto-oncogene:.
Introduction.
The MEN II Syndromes.
The ret Proto-oncogene.
Development of the Tissues Involved in MEN II, and Patterns of ret
Expression.
Speculations on How Different ret Mutations Result in the
Associated Phenotypes and in Tumor Formation.
Other Events in Tumor Progression.
Animal Models of MEN II.
Clinical Implications of the Identification of ret Mutations in MEN
II.
Future Prospects.
References.
Subject Index.
"This classic and essential series presents critical overviews on
select aspects of both cancer research and the basic underlying
sciences." --AMERICAN SCIENTIST
"Excellent, highly informative, in-depth reviews... expertly
written, up-to-date, and well-referenced." --JOURNAL OF MEDICINAL
CHEMISTRY
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