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Chromatin and Disease
It is more evident now than ever before that dynamic organization of human genome into nucleoprotein structure, chromatin confers the unique regulatory mechanisms for most of the cellular phenomena, which include replication, transcription, DNA repair, recombination and also apoptosis. The dynamic nature of the chromatin is regulated by chromatin modifications (epigenetic alterations), remodeling, histone chaperones and functional interactions of different chromatin interacting n- histone proteins. Dysfunction of this highly inter connected machineries disturb the cellular homoeostasis, and thereby causes several diseases. As we advance in our knowledge of chromatin function and also disease mechanisms in more details, their causal relationship is becoming more evident. This has lead to the identification of chromatin function as target for new generation therapeutics.
Checkpoint Responses in Cancer Therapy
This book’s distinguished panel of authors takes a close look at topics ranging from the major molecular players affecting DNA synthesis and the response to DNA damage to advances made in the identification of chemical compounds capable of inhibiting individual mitotic kinases. Illuminating and authoritative, Checkpoint Responses in Cancer Therapy offers a critical summary of findings for researchers in the pharmaceutical and biotechnology industries and a valuable resource for academic scientists in cancer research and the study of cell-cycle regulation, signal transduction and apoptosis.
Cell Engineering : Apoptosis
A reference on the development of cellular systems for the production of recombinant glycoproteins, gene and cell therapies, drug screening and tissue engineering. It intends to review the in-depth assessments of this type of programmed cell death. It is suitable for biotechnologists and researchers in apoptosis, cell biology, and cell culture.
Cancer Metastasis and the Lymphovascular System : Basis for Rational Therapy
Sentinel lymph node (SLN) procedures have opened a window of opportunity for the study of micrometastasis. In eighty percent (80%) of metastasis there lies an orderly pattern of progression via the lymphatic network, while 20% of the time systemic metastasis occurs, bypassing the lymphatic system. During the past two decades, significant progress has been achieved in understanding the anatomical, functional, cellular and molecular aspects of the lymphovascular system and the metastasis process.Molecular imaging advances help to localize early cancers more precisely.
Cancer : Cell Structures, Carcinogens and Genomic Instability
Tumors can be induced by a variety of physical and chemical carcinogens. The resulting tumor cells are usually abnormal in their morphology and behavior and transmit their abnormalities to their daughter tumor cells. Most theories of the pathogenesis of tumors suggest that carcinogens in some way cause alterations either of the genomes or of inheritable patterns of gene expression in normal cells, which then cause morphological and behavioral changes. This volume presents a collection of articles aimed at the question by what genetic or epigenetic mechanisms carcinogens can cause morphological abnormalities of tumor cells. It includes reviews of cellular targets of known carcinogens, and presents varying viewpoints of how morphological abnormalities and the actions of carcinogens might be related.
Breast Cancer Management and Molecular Medicine : Towards Tailored Approaches
This book provides an overview of the most recent techniques, agents and approaches for breast cancer that contribute to the individualization of treatment. Current biomedical research focuses on facilitating the transfer of molecular biology knowledge into the clinical management of patients, leading to increased survival as well as improved quality of life. Particular attention is given in this book to organ-specific tailored approaches, specific populations, patients’ preferences and rehabilitation.
Breast cancer chemosensitivity
In Breast Cancer Chemosensitivity, a group of world leading experts review critical aspects of resistance to systemic therapy in breast cancer patients. Beginning with a clinical overview of the problem Breast Cancer Chemosensitivity moves on to focus on the latest findings of molecular mechanisms of drug resistance. These include in-depth discussions on multidrug resistance by P-glycoprotein and the multidrug resistance protein family, resistance to therapeutic agent-induced apoptosis, cell cycle deregulation, deregulation of DNA repair, loss of tumor suppressor genes, integrin-mediated adhesion, insulin-like growth factors, epidermal growth factor, and ErbB2 in modulating breast cancer response to systemic therapy, especially, certain chemotherapeutic agents. Breast Cancer Chemosensitivity provides an example of using novel approaches for chemosensitization of breast cancer cells that gives readers an idea about the future direction in breast cancer treatment.
Brain tumor pathology : Current diagnostic hotspots and pitfalls
Since Bailey and Cushing (1926), all brain tumor classifications have been called histogenetic. The nosographic position that the tumor types progressively acquired in the classification systems derived from the resemblance of tumor cells to those of the cytogenesis, modified whenever new information became available from different biological research fields and especially from molecular genetics. Classically, on the basis of the rough correspondence between the mature/immature aspect of tumor cells and the benign/malignant biological behavior of the tumors, the histological labels contained a prognostic significance. The supposed origin of the tumors was thus a factor for prognosis. Later on, with the concept of anaplasia (Cox, 1933; Kernohan et al., 1949) new criteria were introduced for establishing the malignancy grades of tumors. Immunohistochemistry and later molecular genetics further refined the prognostic diagnoses, substantially increasing the opportunities to recognize the cell origin of tumors, beside revealing the pathogenetic mechanisms. Prognoses became more accurate, as required by the greater and more targeted possibilities of therapy.
Application of Apoptosis to Cancer Treatment
This book is intended for workers in the field and clinicians as a useful guide of the state of affairs in this exciting field which may offer more effective possibilities for treatment of cancer patients.
Apoptotic pathways as targets for novel therapies in cancer and other diseases
The book attempts to review, summarize, and speculate on the apoptotic pathways, how are they regulated and how targeted therapies are being used to treat a wide variety of diseases. Special emphasis is placed on cancer since new treatments either being developed or currently in the clinical setting are showing great promise to increase survival rates for cancer patients.
Apoptosis, Senescence, and Cancer
Apoptosis, Senescence and Cancer provides insight into established practices and research into apoptosis and senescence by thoroughly examining novel and emerging techniques and research in the fields of cell death pathways, senescence growth arrest, drugs and resistance, DNA damage response, and other topics which still hold mysteries for researchers.this volume provides basic scientists and clinicians with a deeper and more complete understanding of the cellular responses of malignancies which may determine the effectiveness of treatment.
Apoptosis, cell signaling, and human diseases : Molecular mechanisms ; Vol.2
Volume 1 is divided into two sections: "Malignant Transformation and Metastasis" and "Molecular Basis of Disease Therapy." Volume 2 follows a similar structure and is divided into sections entitled "Kinases and Phosphate" and "Molecular Basis of Cell Death." All of the contributors are at the forefront of scientific discovery, and the reviews they present systemically examine the most exciting and innovative aspects of their particular areas of expertise. Researchers will find these volumes of major benefit as they search for novel and more effective treatments for human diseases.
Apoptosis, cell signaling, and human diseases : Molecular mechanisms ; Vol.1
Volume 1 is divided into two sections: “Malignant Transformation and Metastasis” and “Molecular Basis of Disease Therapy.” Volume 2 follows a similar structure and is divided into sections entitled “Kinases and Phosphate” and “Molecular Basis of Cell Death.” All of the contributors are at the forefront of scientific discovery, and the reviews they present systemically examine the most exciting and innovative aspects of their particular areas of expertise. Researchers will find these volumes of major benefit as they search for novel and more effective treatments for human diseases.
Advances in Targeted Cancer Therapy
This volume is the first book to cover the general topic of targeted cancer therapy. It presents a range of targets such as tumor angiogenesis, cell cycle control and cell signalling, COX-2, apoptosis/cell survival, invasion and metastasis and approaches like kinase inhibitors, antisense, and antibody-based therapeutics. The emphasis is on preclinical development, including target validation, development of biomarkers, strategies for combination approaches, and development of resistance. The particular challenges involved in translating these data to clinical application are discussed.
Advances in Molecular Oncology
Proceedings of the 2nd Annual IFOM-IEO Meeting on Cancer. This is a new meeting, it has about 200 attendees from Australia, Austria, Belgium, Brazil, Canada, England, France, Germany, Greece, Ireland, Italy, Japan, Netherlands, Spain, Sweden, Switzerland, and the USA. The 2nd IFOM-IEO international meeting on cancer will provide a forum in which the world’s leading cancer researchers and young scientists will discuss the latest advances in molecular oncology. The impact of recent breakthroughs in basic research and of emerging technologies on molecular medicine in cancer will be highlighted.
Acute Myelogenous Leukemia
The focus is on selected critical molecular determinants of AML pathogenesis and pathophysiology and the exploitation of these factors by diverse therapeutic agents and modalities. Bringing together new concepts and findings in the basic and clinical science of AML, the book emphasizes the molecular basis for new therapies that stand to have the greatest potential impact on the clinical face of these diseases. The text provides insights into selected novel strategies currently and prospectively being developed, including interruption of specific signal transduction pathways, modulation of gene expression, attempts to reinstate differentiation, and immunomodulation.
25 Years of P53 Research
Communication, awareness and access to information: Given the complexity of the field and the fact that data pertaining to each particular aspects of p53 biology or deregulation are scattered in many different publications, it is extremely difficult to access the full scale of relevant information of any specific p53-related topic. This book may help in this task by putting into perspective both general considerations on the p53 pathway and more specific information on various aspects of p53. In the longer term, however, open access to p53 complexity will require the development of knowledge bases accessible through the web and using simple navigation tools to guide users towards the specific information they need. Several efforts are currently being developed in that direction. They need to be strenghtened and better integrated within the rapidly growing galaxy of web-based information sources on molecular and individual variations in cancer. 2. Reference functional assays and structural analysis: Given the huge diversity of cellular and animal models for wild-type or mutant p53 functions, it will be important to set up standard, universally accepted assays to measure critical p53 protein functions.
Biophotonics ; Optical science and engineering for the 21st century
Biophotonics: Optical Science and Engineering in the 21st Century serves as an ideal aid to the research and development of these areas integrating light, photonics, and biological systems.Key topics include: Fluctuation Correlation Spectroscopy in Cells: Determination of Molecular Aggregation ,Using GFP and FRET Technologies for Studying Signaling Mechanisms of Apoptosis in a Single Living Cell, Study on Protein-Protein Interaction in Single Living Cells, Functional Optical Coherence Tomography: Simultaneous In Vivo Imaging of Tissue Structure and Physiology, Imaging –Photo- and Sonodynamic Diagnosis of Cancer Mediated by Chemiluminescence Probes, Biophotonic Analysis of Spontaneous Self-Organizing Oxidative Processes in Aqueous Systems, Biophoton Emission and Defense Systems in Plants
