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Cancer is one of the leading death cause of human population increasingly seen in recent times. Plants have been used for medicinal purposes since immemorial times. Though, several synthetic medicines are useful in treating cancer, they are inefficient and unsafe. However, plants have proved to be useful in cancer cure. Moreover, natural compounds from plants and their derivatives are safe and effective in treatment and management of several cancer types. The anticancer plants such as Catharanthus roseus, Podophyllum peltatum, Taxus brevifolia, Camptotheca acuminate, Andrographis paniculata, Crateva nurvala, Croton tonkinensis, Oplopanax horridus etc., are important source of chemotherapeutic compounds. These plants have proven their significance in the treatment of cancer and various other infectious diseases. Nowadays, several well-known anticancer compounds such as taxol, podophyllotoxins, camptothecin, vinblastine, vincristine, homoharringtonine etc. have been isolated and purified from these medicinal plants. Many of them are used effectively to combat cancer and other related diseases. The herbal medicine and their products are the most suitable and safe to be used as an alternative medicine. Based on their traditional uses and experimental evidences, the anticancer products or compounds are isolated or extracted from the medicinally important plants. Many of these anticancer plants have become endangered due to ruthless harvesting in nature. Hence, there is a need to conserve these species and to propagate them in large scale using plant tissue culture. Alternatively, plant cell tissue and organ culture biotechnology can be adopted to produce these anticancer compounds without cultivation. The proper knowledge and exploration of these isolated molecules or products could provide an alternative source to reduce cancer risk, anti-tumorigenic properties, and suppression of carcinogen activities. Anticancer plants: Volume 1, Properties and Application is a very timely effort in this direction. Discussing the various types of anticancer plants as a source of curative agent, their pharmacological and neutraceutical properties, cryo-preservations and recent trends to understand the basic cause and consequences involved in the diseases diagnosis. We acknowledge the publisher, Springer for their continuous inspiration and valuable suggestions to improvise the content of this book. We further extend our heartfelt gratitude to all our book contributors for their support, and assistance to complete this assignment. I am sure that these books will benefit the scientific communities including academics, pharmaceuticals, nutraceuticals and medical practitioners.
This volume provides summarized scientific evidence of the different classes of plant-derived phytocompounds, their sources, chemical structures, anticancer properties, mechanisms of action, methods of extraction, and their applications in cancer therapy. It also discusses endophyte-derived compounds as chemopreventives to treat various cancer types. In addition, it provides detailed information on the enhanced production of therapeutically valuable anticancer metabolites using biotechnological interventions such as plant cell and tissue culture approaches, including in vitro-, hairy root- and cell-suspension culture; and metabolic engineering of biosynthetic pathways. Anticancer Plants: Natural Products and Biotechnological Implements – Volume 2” explores the natural bioactive compounds isolated from plants as well as fungal endophytes, their chemistry, and preventive effects to reduce the risk of cancer. Moreover, it highlights the genomics/proteomics approaches and biotechnological implementations. Providing solutions to deal with the challenges involved in cancer therapy, the book benefits a wide range of readers including academics, students, and industrial experts working in the area of natural products, medicinal plant chemistry, pharmacology, and biotechnology.
Many chemotherapeutic agents are available in today’s market that are highly effective against a variety of cancer types; however, the major drawbacks of these chemotherapeutic agents are the many side effects. As an alternative to these chemotherapeutic agents, there are a number of natural agents that are effective against cancer that have been tested in preclinical and clinical models over the years. These natural products must be documented and discussed in order to provide a thorough overview of all the options available for cancer treatment. The Handbook of Research on Natural Products and Their Bioactive Compounds as Cancer Therapeutics emphasizes the list of natural agents against all types of cancers and discusses the current state of research in the fields of natural products and their derivatives against cancer in preclinical and clinical models. This book also provides insight into the applications of meditation and mindfulness-based interventions in clinical and non-clinical conditions. Covering topics such as cancer therapy, antioxidants, and flavonoids, it is ideal for students, research scholars, academicians, professors, scientists, oncologists, doctors, and medical practitioners.
The global popularity of herbal supplements and the promise they hold in treating various disease states has caused an unprecedented interest in understanding the molecular basis of the biological activity of traditional remedies. Herbal Medicine: Biomolecular and Clinical Aspects focuses on presenting current scientific evidence of biomolecular ef
Medicinal plants are used to treat diseases and provide health benefits, and their applications are increasing around the world. A huge array of phytochemicals have been identified from medicinal plants, belonging to carotenoids, flavonoids, lignans, and phenolic acids, and so on, with a wide range of biological activities. In order to explore our knowledge of phytochemicals with the assistance of modern molecular tools and high-throughput technologies, this book collects recent innovative original research and review articles on subtopics of mechanistic insights into bioactivities, treatment of diseases, profiling, extraction and identification, and biotechnology.
Plants that Fight Cancer, Second Edition, is a compilation that reviews cancer treatment and research-based information on the plant kingdom as the source of both known and novel chemical moieties and mixtures, many of them still under identification. This new edition follows the organization of the first book with a considerable expansion of content that more than doubles the volume of information. Divided into four segments, the first part is dedicated to a review of our current knowledge of cancer, the different types and incidence, the molecular pathways of the disease, and the various treatment protocols, with an emphasis on chemotherapy. The second part is a brief journey in pharmacognosy, with detailed information about each of the fourteen different chemical groups of plant secondary metabolites, their use in cancer chemotherapy, and updated information on the biotechnological production of the most representative compounds in clinical practice. The third part of the book comprises six chapters dedicated to either plant chemotherapeutical approaches to specific cancer types (e.g. bladder, prostate) or specific groups of plant secondary metabolites with novel and promising properties for cancer treatment (e.g. naphthoquinones, lectins, phenanthridone alkaloids). The fourth part, containing investigative information on almost 300 individual plant species with established anticancer properties, either on a clinical or in vitro level, is with no doubt the most analytical. This new edition contains chapters on cytotoxic phenanthridone alkaloid constituents of the Amaryllidaceae; naphthoquinone-contained anticancer terrestrial plants; polyphenols and cancer immunology; medicinal plant product-based fabrication nanoparticles (Au and Ag) and their anticancer effects; bladder and prostate cancer; and plant lectins in cancer treatment. FEATURES • Provides efficient information for all kinds of cancer and plant chemotherapeutical approaches to specific cancer types • Discusses specific groups of plant secondary metabolites with novel and promising properties for cancer treatment • Provides scientific information for medicinal uses of various plants • Contains analytical information on almost 300 individual plant species with established anticancer properties, either on a clinical or in vitro level • Focuses on plant genera and species that are either already used in cancer chemotherapy or have been identified with antitumor and antileukemic properties to a bigger or lesser extent
Flavonoids are abundant secondary metabolites found in plants and fungi that have various roles in these organisms, including pigmentation, cell signalling, plant defence and inter-organism communication. Due to their abundance in nature, flavonoids are also important components of the human diet, and the last four decades have seen an intense study focused on the structure characterization of flavonoids and on their roles in mammal metabolism. This book reviews most of the well-established activities of flavonoids, and we also present more recent research studies on the area of flavonoids, including the chemical aspects of structure characterization of flavonoids, the biosynthesis of flavonoids in model plants as well as their role in abiotic stress situations and in agriculture, the role of flavonoids in metabolism and health and their importance in foods, from consumption to their use as bioactive components.
Plants, marine organisms, and microorganisms have evolved complex chemical defense and signaling systems that are designed to protect them from predators and provide other biological benefits. These organisms thus produce substances containing novel chemotypes that may have beneficial effects for humans. As collection methods improve and new screen
Camptothecin and Camptothecin Producing Plants: Botany, Chemistry, Anticancer Activity and Biotechnology provides updated information on camptothecin yielding plants, chemical diversity of camptothecin, extraction and exploitation methods, biosynthesis, biotechnological production and enhancement for drug delivery, and the pharmacological properties of the drugs. The book focuses on camptothecin anticancer properties based on recent developments of biotechnology. Topics emphasize anticancer activities, biosynthesis, potent derivatives currently undergoing experimental phases, and biotechnological methods to enhance the production. This book is a valuable source for cancer researchers, oncologists, biotechnologists, pharmacologists and members of the biomedical field who are interested in camptothecin and its applicability in cancer treatment. - Provides information on camptothecin producing plants and their anticancer properties for the development of new treatments - Discusses new applications of camptothecin based on recent biotechnology advancements - Presents comprehensive information on the pharmacology of camptothecin for leveraging new anticancer drugs developments