Advances in Cancer Research -

Advances in Cancer Research (eBook)

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1999 | 1. Auflage
249 Seiten
Elsevier Science (Verlag)
978-0-08-056258-2 (ISBN)
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Volume 76 of Advances in Cancer Research continues the series' goal of publishing timely and authoritative reviews in the broad field of cancer research. Ruoslahti begins the volume with a review of fibronectin and its integrin receptors in cancer. Chapter 2 by Ganter and Lipsick discusses Myb and oncogenesis. Biscardi and colleagues present their research on c-Src, receptor tyrosine kinases, and human cancer in Chapter 3. Chapter 4 by Schulz covers epidemiology of Kaposi's sarcoma and associated herpesvirus/human herpesvirus 8. The consensus on synergism between cigarette smoke and other environmental carcinogens in the causation of lung cancer is reviewed by Reif and Heeren in Chapter 5. In Chapter 6, Breivik and Gaudernack discuss perspectives on carcinogenesis and natural selection in the genetics and epigenetics of colorectal cancer. Chapter 7 by Coulie and co-workers concludes the volume with a discussion of anti-tumor immunity at work in a melanoma patient.
Volume 76 of Advances in Cancer Research continues the series' goal of publishing timely and authoritative reviews in the broad field of cancer research. Ruoslahti begins the volume with a review of fibronectin and its integrin receptors in cancer. Chapter 2 by Ganter and Lipsick discusses Myb and oncogenesis. Biscardi and colleagues present their research on c-Src, receptor tyrosine kinases, and human cancer in Chapter 3. Chapter 4 by Schulz covers epidemiology of Kaposi's sarcoma and associated herpesvirus/human herpesvirus 8. The consensus on synergism between cigarette smoke and other environmental carcinogens in the causation of lung cancer is reviewed by Reif and Heeren in Chapter 5. In Chapter 6, Breivik and Gaudernack discuss perspectives on carcinogenesis and natural selection in the genetics and epigenetics of colorectal cancer. Chapter 7 by Coulie and co-workers concludes the volume with a discussion of anti-tumor immunity at work in a melanoma patient.

Front Cover 1
Advances in Cancer Research, Volume 76 4
Copyright Page 5
Contents 6
Contributors to Volume 76 10
Chapter 1. Fibronectin and Its Integrin Receptors in Cancer 12
I. Introduction 12
II. Reduced Adhesiveness Is Needed for Detachment and Migration 14
III. Anchorage Dependence and Anoikis 16
IV. Cell Migration and Invasion 21
References 27
Chapter 2. Myb and Oncogenesis 32
I. Introduction 32
II. The Myb Genes 33
III. Structural and Functional Features of the Myb Proteins 47
IV. Regulation of v-Myb and c-Myb 52
V. Transcriptional Regulation by v-Myb and c-Myb 57
VI. The Myb–Chromatin Connection 61
References 63
Chapter 3. c-Src, Receptor Tyrosine Kinases, and Human Cancer 72
I. Introduction 72
II. Receptor Tyrosine Kinases and Human Cancers 74
III. c-Src and c-Src Family Members in Human Cancers 89
IV. Mechanisms of c-Src Action 102
V. Potential Therapeutic Applications of c-Src/HERl Interactions 115
References 116
Chapter 4. Epidemiology of Kaposi's Sarcoma-Associated Herpesvirus/human Herpesvirus 8 134
I. Introduction 134
II. KSHV Phylogeny and Molecular Epidemiology 135
III. Geographic Distribution 137
IV. KSHV Prevalence in Risk Groups for HIV-1 Transmission 150
V. Transmission of KSHV 154
VI. Association of KSHV with Disease 158
VII. Conclusion 166
References 167
Chapter 5. Consensus on Synergism between Cigarette Smoke and Other Environmental Carcinogens in the Causation of Lung Cancer 174
1. Introduction 174
II. Testing the Significance of a Finding of Synergism 178
III. Carcinogenic Synergism and Public Health 185
IV. Previous Findings on Synergism Involving Cigarette Smoke 189
V. Multistep Carcinogenesis 190
VI. Varying the Time Frame of Data Collection 193
VII. Conclusion 195
References 195
Chapter 6. Carcinogenesis and Natural Selection: A New Perspective to the Genetics and Epigenetics of Colorectal Cancer 200
I. Introduction 200
II. Evolution and Cancer 201
III. The Microsatellite Instability Pathway 207
IV. The Chromosomal Instability Pathway 211
V. MIN versus CIN 214
VI. DNA Methylation and the Epigenetics of Cancer 215
VII. Location-Related Carcinogenic Environments 221
VIII. Conclusion and Perspectives 223
References 224
Chapter 7. Antitumor Immunity at Work in a Melanoma Patient 228
I. Introduction 229
II. Melanoma Patient LB33 and Melanoma Cell Lines 231
III. Autologous CTLs against MEL.A Cells 233
IV. Identification of Antigens Recognized by CTLs on MEL.A Cells 238
V. The MEL.B Cells 242
VI. A New Class of Antitumor CTL 247
VII. Conclusions 253
References 254
Index 258

Fibronectin and Its Integrin Receptors in Cancer


Erkki Ruoslahti    Cancer Research Center The Burnham Institute La Jolla, California 92037

The adhesive extracellular matrix protein fibronectin and its integrin receptors play important roles at several stages of tumor development. Tumor cells are generally less adhesive than normal cells and deposit less extracellular matrix. The loosened matrix adhesion that results may contribute to the ability of tumor cells to leave their original position in the tissue.

Normal cells, when detached, stop growing and undergo anoikis (apoptosis caused by loss of adhesion). Integrin-activated pathways mediated by focal adhesion kinase (FAK) and the adapter protein Shc seem to be particularly important in anchorage dependence; many oncoproteins are capable of shunting these pathways. Malignant cells circumvent anchorage dependence with the help of oncoproteins.

Once invading tumor cells have gained access to the circulation, adhesion to the endothelia and other tissue components facilitates the establishment of tumor colonies at distant sites. Specific tissue affinities may underlie the tendency of some tumors to metastasize preferentially to certain tissues. Interfering with tumor cell attachment with integrin-binding peptides has been shown to be an effective antimetastatic strategy in animal experiments.

Tumor angiogenesis is yet another aspect of malignancy wherein extracellular matrices and integrins are important. Angiogenic endothelial cells in tumor vessels depend on the αv family of integrins for survival. Inhibiting angiogenesis with compounds that block the activity of αv integrins, and targeting drugs into tumors through these integrins, show promise as new anticancer strategies. © 1999 Academic Press.

I INTRODUCTION


Cancer is a disease of tissue architecture. In forming tissues and organs during development, cells specialize and migrate to their appropriate places in an orderly way. After this process is completed, the body plan is strictly maintained, except in cancer. Cancerous cells acquire the ability to breach tissue barriers, trespassing into adjacent tissues and distant sites in the body. This process, metastasis, is the most devastating aspect of cancer. Metastatic cancer has usually reached so many places that cure by surgery becomes impossible. For that reason, invasion into normal tissue and metastasis are the hallmarks of malignancy. A benign tumor that is not removed can get very large; the cells that make up such a tumor obviously overproliferate, but unlike malignant cancer cells, they do not invade or metastasize.

Adhesive interactions are thought to play a major role in the construction of the body plan during development. These interactions comprise an area code system that guides cells to their appropriate locations in the body and anchors them there. Adhesion is also important in the maintenance of the body plan. Thus, it is not surprising that cell adhesion molecules—integrins and their extracellular matrix ligands in particular—are important in cancer.

Integrins are the main class of cell adhesion receptors for extracellular matrices and can also serve as cell—cell adhesion receptors (Hynes, 1992; Springer, 1994; Ruoslahti, 1996). Integrins are membrane proteins that consist of an α and a β subunit, each with a molecular mass in the 100- to 200-kDa range. Both subunits span the cell membrane, with most of the polypeptide outside the cell. The cytoplasmic domains of the integrin subunits, with one exception, are short, 30- to 50-amino acid peptides. There are 15 known α subunits and 8 β subunits, which combine into some 25 different integrins. The β1, β2, and αv subunits can pair with a particularly large number of possible companion subunits, each defining its subfamily among integrins. The extracellular ligand-binding specificity of an integrin is generated jointly by the α and β subunits of the integrin.

Integrins display specificity on several levels. First, they are expressed in a cell-type- and stage-specific manner. Thus, one group of integrins is associated with migration and proliferation in various types of cells. These “emergency integrins” include α5β1, αvβ3, and αvβ6 (Sheppard, 1996). These integrins may be particularly important in cancer. Many other integrins are selectively expressed in a certain cell type or a few cell types. Examples of cell-type-specific integrins include αIIbβ3 in platelets and α6β4 in epithelial cells. Another level of integrin specificity is manifested in their ligand binding. Many of the integrins bind the RGD cell attachment sequence, but they recognize that sequence differentially in the context of various extracellular matrix proteins, such that some bind primarily to fibronectin and others to vitronectin (Ruoslahti, 1996). At yet another level of specificity, individual integrins mediate distinct signals into the interior of the cell (Schwartz et al., 1995; Clark and Brugge, 1995; Juliano and Haskill, 1993).

Integrins have been shown to be signaling molecules capable of generating both common signals and signals that are specific for individual integrins. It has also been found that information can flow in the reverse direction through integrins; their ligand-binding ability is regulated from inside the cell (Chan and Hemler, 1993; Zhang et al., 1996; Kolanus et al., 1996; Hughes et al., 1997).

In this article, I review the current understanding of the role of integrins and their ligands in the development and dissemination of cancer. Also discussed are a number of emerging integrin-based cancer treatments.

II REDUCED ADHESIVENESS IS NEEDED FOR DETACHMENT AND MIGRATION


To be able to emigrate to another tissue, cancer cells have to detach from their original location, invade a blood or lymphatic vessel, travel in the circulation to a distant site, and establish a new cellular colony (Fig. 1). At every one of these steps, they must escape a number of controls that keep normal cells in place.

Fig. 1 Critical stages in tumor metastasis.

The first step in cancer invasion is likely to be loosening of the adhesive restraint between cells. Both cell–extracellular matrix adhesion and cell—cell adhesion contribute to keeping cells in place. Indeed, adhesion molecules that mediate these interactions are frequently missing or compromised in cancer cells.

The first adhesion anomaly discovered was the loss of fibronectin matrix in malignantly transformed cells in the early 1970s (Ruoslahti, 1988). Fibronectin is the prototype cell attachment protein found in the matrix surrounding normal cells. The fibronectin matrix mediates cell adhesion and anchorage through a number of fibronectin-binding integrins, including α5β1. The fibronectin matrix appears to be an important constraint on cells, because its restoration by various means suppresses cell migration and tumorigenicity.

Fibronectin does not form matrix spontaneously—the cell uses its α5β1 integrin to capture secreted fibronectin and convert it into the fibrils that are then deposited into the matrix. Forced expression of the α5β1 integrin in tumor cells reduces their motility and tumorigenicity (Giancotti and Ruoslahti, 1990). Conversely, a decrease in α5β1 expression increases the tumorigenicity of CHO cells (Schreiner et al., 1991). Some of the α5β1 integrin effect may be related to a signaling role of the integrin (Varner et al., 1995; Varner and Cheresh, 1996). However, the increase in fibronectin matrix assembly that accompanies an increase in α5β1 expression or activity (Giancotti and Ruoslahti, 1990; Wu et al., 1996) appears to be responsible for most of the effect. Thus, expression of fibronectin from a transfected cDNA can convert tumorigenic cells into nontumorigenic ones (Wu et al., 1996), and the fibrillar form of fibronectin, superfibronectin, has a tumor-suppressive effect in vitro and in vivo. I discuss superfibronectin later on in this review.

Malignant transformation by oncogenes generally reduces cellular adhesiveness, and this may be one critical element in tumorigenesis. At least two oncogenes, Src and Ras, can impair integrin activity (Akamatsu et al., 1996; Hughes et al., 1997). The Src oncogene can directly phosphorylate the β1 integrin subunit, causing loss of β1 integrin ligand-binding affinity (Akamatsu et al., 1996). Src also phosphorylates a number of signaling molecules associated with integrins; the effect appears to be to shunt the integrin signaling pathways that control anchorage dependence (below). The influence of Ras on integrins was discovered in experiments designed to reveal cDNAs capable of reducing integrin affinity for their ligands (Hughes et al., 1997). Importantly, by impairing the α5β1 integrin, both Src and Ras reduce fibronectin matrix deposition. In addition, oncogenic Src reduces fibronectin synthesis by the cells...

Erscheint lt. Verlag 13.4.1999
Sprache englisch
Themenwelt Sachbuch/Ratgeber
Medizin / Pharmazie Medizinische Fachgebiete Onkologie
Studium Querschnittsbereiche Infektiologie / Immunologie
Naturwissenschaften Biologie Genetik / Molekularbiologie
Naturwissenschaften Biologie Zellbiologie
ISBN-10 0-08-056258-2 / 0080562582
ISBN-13 978-0-08-056258-2 / 9780080562582
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