The worm turns - into a source of new drugs.Hookworms, the internal vampires that infect an estimated 1 billion people worldwide, may someday aid the very species whose blood they so blithely feed upon. To keep their free meals flowing, hookworms synthesize proteins that prevent blood from coagulating, report researchers at Yale University School of Medicine and Corvas International, a biotech firm in San Diego. These proteins, three of which are described in detail in the March 5 Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. , offer the potential of safer or more potent drugs to prevent thrombosis, the dangerous clotting of blood within veins and arteries that can lead to strokes or heart attacks. "It looks as though the hookworm hookworm, any of a number of bloodsucking nematodes in the phylum Nematoda, order Strongiloidae that live as parasites in humans and other mammals and attach themselves to the host's intestines by means of hooks. proteins inhibit coagulation coagulation (kōăg'y  lā`shən), the collecting into a mass of minute particles of a solid dispersed throughout a liquid (a sol), usually followed by the precipitation or at two different points in the [clotting] process," says Michael Cappello of Yale. That hookworms make such proteins is not surprising, since the survival of these parasites depends upon their ability to latch onto a mammal's small intestine small intestineLong, narrow, convoluted tube in which most digestion takes place. It extends 22–25 ft (6.7–7.6 m), from the stomach to the large intestine. and drain blood for nourishment. Knowledge of the worms' anticlotting skill dates to the turn of the century, notes Cappello. Scientists of that era found that if they dried adult hookworms, ground them up, and added that powder to plasma, the blood would not clot. Those early investigators didn't have the research tools needed to isolate the responsible molecules, however. That achievement awaited Yale's Peter J. Hotez, who suggests that internal parasites offer a source of drugs comparable to the oceans' waters and soil samples from rain forests. "These endoparasites have done something that the seas and the tropical rain forests haven't done. . . . They've done millions of years' of [research and development] for you in the form of evolution. They've been coevolving with their hosts. By living inside hosts, they've fine-tuned molecules which I think are ideal solutions for a lot of medical problems," says Hotez. Hotez's interest in hookworms stems largely from his desire to find a vaccine against them. Uncommon in the United States, hookworm infections in developing countries often cause severe anemia, retarded physical and mental development, and even death, especially among children. One recent survey found that 17 percent of people in China are infected. "It's one of [China's] biggest problems," says Hotez. The search for proteins that might stimulate hookworm immunity led Hotez and Cappello to isolate and purify an anticlotting protein from Ancylostoma caninum Ancylostoma ca·ni·num n. A species of hookworm that can infest human skin. , a species of worms that infects both dogs and people. With George P. Vlasuk and his coworkers at Corvas, the Yale group has now characterized the function of that protein and two others from the same worm species. Clotting occurs when injured blood vessels Blood vessels Tubular channels for blood transport, of which there are three principal types: arteries, capillaries, and veins. Only the larger arteries and veins in the body bear distinct names. expose surface molecules to a bloodborne enzyme called factor VIIa. The combination of these molecules activates another enzyme, factor Xa, which converts a molecule called prothrombin prothrombin Carbohydrate-protein compound in plasma essential to coagulation. In response to bleeding, a complex series of clotting-factor interactions leads to its conversion by thromboplastin to thrombin, which transforms fibrinogen in plasma into fibrin. into thrombin thrombin: see blood clotting. . Thrombin speeds coagulation by creating clots of the protein fibrin fibrin: see blood clotting. and inducing the aggregation of blood cells called platelets. Two of the new proteins thwart clotting by binding to and inactivating factor Xa; the third protein stymies factor VIIa and "inhibits the initiation of the entire coagulation cascade," says Vlasuk. In animal studies not yet published, the factor VIIa inhibitor appears to be an even more effective anticoagulant anticoagulant (ăn'tēkōăg`yələnt), any of several substances that inhibit blood clot formation (see blood clotting). than known antithrombotic agents such as heparin, says Vlasuk. Corvas plans clinical trials of the compound next year. Cappello also hopes to develop a novel vaccine using the proteins. Such a vaccine would be intended not to raise a direct immune attack on the hookworms but to generate antibodies that neutralize the anticlotting proteins and cut off the worms' food supply. |
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