Book Volume 1
Preface
Page: ii-ii (1)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010002
Introduction
Page: 1-7 (7)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010003
PDF Price: $15
Abstract
This chapter deals with the approved drugs sourced from marine biota, the
pathophysiology of cancer, the anticancer potential of marine organisms, the most
promising marine biota-derived anticancer compounds for the different types of human
and cancer, biogeography of marine invertebrate species yielding anti cancer compounds, major constraints in the development of anticancer drugs and the remedial
measures.
Marine Bio-Chemical Diversity: Promising Anticancer Groups
Page: 8-19 (12)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010004
PDF Price: $15
Abstract
This chapter deals with marine biodiversity and its constituents possessing
anticancer activity. The different potential groups of marine plants such as microalgae
(e.g. cyanobacteria), macroalgae (seaweeds), seagrasses, and mangroves; marine
invertebrates viz. sponges, cnidarians, bryozoans, molluscs, and echinoderms; and
tunicates among chordates producing anticancer compounds have been identified. The
chemical diversity of anticancer compounds representing different chemical classes viz.
alkaloids, terpenes, peptides, polyketides, polyphenols, glycosides etc. is also dealt
with.
Marine Biota-based Anticancer Drug Candidates in Pipeline
Page: 20-45 (26)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010005
PDF Price: $15
Abstract
This chapter deals with the approved and marketed anticancer drugs derived
from marine sponges, mollusks/cyanobacteria, and tunicates; marine biota-derived
anticancer compounds in clinical trials i.e in III, II, and I phases; and bioactive new
chemical entities (NCEs) with anticancer function from marine biota. Limiting factors
in the development and approval of drugs from marine biota and significant challenges
in the development and approval of marine drugs are also given.
Anticancer Potential of Marine Plants
Page: 46-112 (67)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010006
PDF Price: $15
Abstract
This chapter identifies the potential species of the various groups of marine
plants such as microalgae (microscopic green algae, blue-green algae, golden-brown,
and yellow algae, yellow-green algae and dinoflagellates and red alga), macroalgae or
seaweeds viz. green algae, brown algae and red algae), seagrasses, mangrove plants,
and halophytes; and their anticancer compounds with the mechanism of actions.
Anticancer Potential of Marine Sponges
Page: 113-171 (59)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010007
PDF Price: $15
Abstract
This chapter deals with the anticancer activity of different chemical classes
of compounds of marine sponges viz. alkaloids, terpenes, peptides and lipids. The
mechanisms of action of the different compounds are also given.
Anticancer Potential of Marine Cnidarians
Page: 172-216 (45)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010008
PDF Price: $15
Abstract
The anticancer potential of the marine organisms of the phylum: Cnidaria
viz. medusae of Hydrozoa, Scyphozoa and Cubozoa; and soft, stony and black corals
and sea anemones of Anthozoa are given in this chapter.
Anticancer Potential of Marine Bryozoans
Page: 217-230 (14)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010009
PDF Price: $15
Abstract
This chapter deals with the anticancer and cytotoxic compounds of marine
bryozoans and their mechanisms of action. Most of the anticancer compounds of these
bryozoans were found to belong to the chemical classes alkaloids and lactones.
Anticancer Potential of Marine Shellfish
Page: 231-296 (66)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010010
PDF Price: $15
Abstract
This topic describes the anticancer metabolites of the components of marine
shellfish such as crustaceasn (shrimp, lobsters, crayfish, and crabs), marine molluscs
viz. bivalves (clams, oysters, etc), gastropods (snails, slugs, etc.) and cephalopods
(squids, octopuses, and cuttlefish). Among the bioactive compounds of marine
molluscs, the anti-proliferative and cytotoxic compounds accounted for 12 and 36%.
Among echinoderms, the asteroids (starfish), echinoids (sea urchins) and holothuroids
(sea cucumbers) are found to be pharmaceutically important. Among the bioactive
metabolites of echinoderms, the cytotoxic or anti-proliferative metabolites accounted
for 38%.
Anticancer Potential of Marine Chordates
Page: 297-340 (44)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010011
PDF Price: $15
Abstract
The anticancer compounds of tunicates and marine fishes viz. elasmobranchs
and teleosts are dealt with in this chapter.
Subject Index
Page: 357-362 (6)
Author: Ramasamy Santhanam*, Santhanam Ramesh*, Subbiah Balasundari* and Sheba R. David*
DOI: 10.2174/9789815256055124010013
Introduction
This inter-disciplinary volume provides information on anticancer medicines derived from marine organisms. Eight edited reviews extensively list the variety of organisms including marine plants, sponges, cnidarians and fish. Emphasis is placed on the source of the compounds, their structure and mechanism of action. Anticancer peptides from sponges are covered in a dedicated chapter. The specific biology and ecology of marine organisms yielding these anticancer compounds is also highlighted where appropriate. All chapters include detailed references for advanced readers. This volume is a standard text-cum-reference for teachers, students and researchers of various disciplines such as Biomedical Sciences, Pharmaceutical Sciences, Marine Biology, and Fisheries Science, it also serves as a guide to marine anticancer compounds for professionals in the pharmaceutical industry who are involved in the development of new marine-derived anticancer drugs.