By Henrylito D. Tacio
Photos courtesy of SeaWeb
In 2008, Dr. Lourdes Cruz bested more than 1,000 nominees worldwide for the award given annually to women scientists from five different regions of the world for their outstanding scientific contributions and commitment. She was chosen by a jury composed of 18 eminent members of the scientific community headed by the 1999 recipient of the Nobel Prize in medicine, Gunter Blobel.
Dr. Cruz was given the L’Oreal-Unesco Award for Women in Science “for her pioneering research on the venomous toxins of the cone snail, which can produce a medication that is more powerful than morphine and can serve as powerful tools to study brain function.”
Conotoxin is just one of those chemicals found from the species inhabiting the coastal waters. Coral reefs, for instance, hold considerable untapped potential in medical science. In fact, the US State Department said that half the potential pharmaceuticals being explored today come from the oceans, many from coral reef ecosystems.
“The sky is the limit,” says Dr. Deborah Gochfeld, a senior research scientist at the National Center for Natural Products Research of the University of Mississippi. “The oceans have a much broader diversity of chemical structures than are found in plants – which include uses for cancer, heart disease, and infections, among others – so it is likely that marine animals will include all of these options and more.”
Dr. William Fenical, director for marine biotechnology and biomedicine at the Scripps Institution of Oceanography in La Jolla, California, echoes the same idea. “Marine resources could be the major source of drugs in the coming years,” he pointed out.
Most of these marine resources thrive in coral reefs. “Many coral reef species produce chemicals like histamines and antibiotics used in medicine and science,” reports The Nature Conservancy, an organization whose mission is to preserve plants, animals and natural communities by protecting the lands and waters needed for their survival.
“Coral reef plants and animals are important sources of new medicines being developed to treat cancer, arthritis, human bacterial infections, heart disease, viruses, and other diseases,” says the US National Oceanic and Atmospheric Administration (NOAA). “Some coral reef organisms produce powerful chemicals to fend off attackers, and scientists continue to research the medicinal potential of these substances.”
Coral reefs, touted to be the rainforests of the sea, are one of the most productive and biologically rich ecosystems on earth. They extend across about 250,000 square kilometers of the ocean – less than one-tenth of one percent of the marine environment – yet they may be home to 25 percent of all known marine species.
“About 4,000 coral reef-associated fish species and 800 species of reef-building corals have been described to date, though these numbers are dwarfed by the great diversity of other marine species associated with coral reefs, including sponges, urchins, crustaceans, mollusks, and many more,” Reefs at Risk Revisited in the Coral Triangle noted.
For centuries, coastal communities have used reef plants and animals for their medicinal properties. In the Philippines, for instance, giant clams are eaten as a malaria treatment.
“Unique medicinal properties of coral reef organisms were recognized by Eastern cultures as early as the 14th century, and some species continue to be in high demand for traditional medicines,” observes Dr. Andrew Bruckner, a coral reef ecologist in the US National Marine Fisheries Service’s Office of Protected Resources in Silver Spring, Maryland.
In China and Taiwan, tonics and medicines derived from seahorse extracts are used to treat a wide range of ailments, including sexual disorders, respiratory and circulatory problems, kidney and liver diseases, throat infections, skin ailments, and pain.
In Japan’s reefs – one of the most studied coral coasts in the world – there is a chemical called kainic acid, which is used as a diagnostic chemical to investigate Huntington’s chorea, a rare but fatal disease of the nervous system. Sea whips, a type of soft coral found throughout the Caribbean may hold the key to promising new painkillers.
Other coral chemicals have proved useful in research on arthritis and asthma. In Australia, researchers have developed a sun cream for a coral chemical that contains a natural “factor 50” sun block.
Also, the porous limestone skeleton of coral is now being tested as bone grafts in humans. “If used properly, the reefs of the entire world can better serve humans with medicine rather than with food,” some researchers claim.
In an article which appeared in Reef Research, Dr. Patrick Colin, a marine biologist, clearly described the hopes that had led him to spend the 1990s collecting marine samples in the Pacific for the US National Cancer Institute (NCI). “Over the years, the NCI has been screening terrestrial plants and marine organisms worldwide for bioactivity against cancer and Acquired Immune Deficiency Syndrome (AIDS), and has come up with a number of hot prospects, a number of which are in clinical trials,” he wrote.
Already, the NCI has been screening each year about 1,000 species of oceanic invertebrates and plants, including sea slugs, sea squirts, sponges, and several other denizens of coral gardens.
“The marine environment became a focus of natural products drug discovery research because of its relatively unexplored biodiversity,” says the book, From Monsoons to Microbes.
According to the book, marine sponges are among the most prolific sources of diverse chemical compounds with therapeutic potential. Of the more than 5,000 chemical compounds derived from marine organisms, more than 30 percent have so far been isolated from sponges.
Chemicals with therapeutic potential can also be extracted from bryozoans, ascidians, mollusks, cnidarians and algae. Several strains of phytoplankton have been discovered to be exhibiting antibacterial and antifungal properties.
Since the mid-1970s, private and government-funded institutions from the United States and other industrialized countries have devoted varying levels of effort to the discovery of marine-derived pharmaceuticals.
Meanwhile, the use coral in bone grafts is spreading rapidly. Pieces of coral set into a fracture act as a scaffold around which the healing can take place. The implant eventually disappears, absorbed by the new growth of bone. Rates of rejection are much lower than with artificial grafting materials.
Unfortunately, the ecologically-fragile coral reefs which someone describes as “Eden beneath the waves,” are on the verge of extinction. Coral reefs in Asia as well in other parts of the world are disappearing fast.
“More than 60 percent of the world’s reefs are under immediate and direct threat from local sources – such as overfishing, destructive fishing, coastal development, watershed-based pollution, or marine-based pollution and damage,” Reefs at Risk reported.
Climate change brought about by global warming is exacerbating the problem. “Tropical coral reef waters are already significantly warmer than they were and the rate of warming is accelerating,” deplored Janice Lough, of the Australian Institute of Marine Science. “With or without drastic curtailment of greenhouse gas emissions we are facing, for the foreseeable future, changes in the physical environment of present-day coral reefs.”
Once these coral reefs are gone, they would be lost forever – including those that can serve as sources of medicines. “The loss of biodiversity represents lost potential medicines (as well as many other biotechnology products that enhance our lives),” says Dr. Gochfeld. “The alarming loss of coral reefs in recent years includes unestimated loss of species that could one day save lives from malaria, cancer, HIV, and many other infectious diseases.”
Coastal and marine scientists attending the International Coral Reef Symposium in Cairns, Australia some years back urged governments from all over the world “to take action for the preservation of coral reefs for the benefit of present and future generations.”
“We can expect future medical benefits from chemical compounds in coral reef species and ecosystems,” says the World Wide Fund for Nature. “Just as with tropical forests, we may find the answers to medical problems in the coral reefs – as long as we can preserve them and keep them healthy.”
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