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Saving bugs to find new drugs
ZOOLOGIST ROSS PIPER LOOKS AT THE POTENTIAL OF INSECTS IN PHARMACEUTICAL RESEARCH
A. More drugs than you might think are derived from, or inspired by, compounds found in living things. Looking to nature for the soothing and curing of our ailments is nothing new – we have been doing it for tens of thousands of years. You only have to look at other primates – such as the capuchin monkeys who rub themselves with toxin-oozing millipedes to deter mosquitoes or the chimpanzees who use noxious forest plants to rid themselves of intestinal parasites – to realize that our ancient ancestors too probably had a basic grasp of medicine.
B. Pharmaceutical science and chemistry built on these ancient foundations and perfected the extraction, characterization, modification, and testing of these natural products. Then, for a while, modern pharmaceutical science moved its focus away from nature and into the laboratory, designing chemical compounds from scratch. The main cause of this shift is that although there are plenty of promising chemical compounds in nature, finding them is far from easy. Securing sufficient numbers of the organism in question, isolating and characterizing the compounds of interest, and producing large quantities of these compounds are all significant hurdles.
C. Laboratory-based drug discovery has achieved varying levels of success, something which has now prompted the development of new approaches focusing once again on natural products. With the ability to mine genomes for useful compounds, it is now evident that we have barely scratched the surface of nature’s molecular diversity. This realization, together with several looming health crises, such as antibiotic resistance, has put bioprospecting – the search for useful compounds in nature – firmly back on the map.
D. Insects are the undisputed masters of the terrestrial domain, where they occupy every possible niche. Consequently, they have a bewildering array of interactions with other organisms, something which has driven the evolution of an enormous range of very interesting compounds for defensive and offensive purposes. Their remarkable diversity exceeds that of every other group of animals on the planet combined. Yet even though insects are far and away from the most diverse animals in existence, their potential as sources of therapeutic compounds is yet to be realized.
E. From the tiny proportion of insects that have been investigated, several promising compounds have been identified. For example, all of Eron, an antimicrobial compound produced by blowfly larvae, is used as an antiviral and antitumor agent in South Korea and Russia. The larvae of a few other insect species are being investigated for the potent antimicrobial compounds they produce. Meanwhile, a compound from the venom of the wasp Polybia Paulista has potential in cancer treatment.
F. Why is it that insects have received relatively little attention in bioprospecting? Firstly, there are so many insects that, without some manner of targeted approach, investigating this huge variety of species is a daunting task. Secondly, insects are generally very small, and the glands inside them that secrete potentially useful compounds are smaller still. This can make it difficult to obtain sufficient quantities of the compound for subsequent testing. Thirdly, although we consider insects to be everywhere, the reality of this ubiquity is vast numbers of a few extremely common species. Many insect species are infrequently encountered and very difficult to rear in captivity, which, again, can leave us with insufficient material to work with.
G. My colleagues and I at Aberystwyth University in the UK have developed an approach in which we use our knowledge of ecology as a guide to target our efforts. The creatures that particularly interest us are the many insects that secrete powerful poison for subduing prey and keeping it fresh for future consumption. There are even more insects that are masters of exploiting filthy habitats, such as feces and carcasses, where they are regularly challenged by thousands of micro-organisms. These insects have many antimicrobial compounds for dealing with pathogenic bacteria and fungi, suggesting that there is certainly potential to find many compounds that can serve as or inspire new antibiotics.
H. Although natural history knowledge points us in the right direction, it doesn’t solve the problems associated with obtaining useful compounds from insects. Fortunately, it is now possible to snip out the stretches of the insect’s DNA that carry the codes for the interesting compounds and insert them into cell lines that allow larger quantities to be produced. And although the road from isolating and characterizing compounds with desirable qualities to developing a commercial product is very long and full of pitfalls, the variety of successful animal-derived pharmaceuticals on the market demonstrates there is a precedent here that is worth exploring.
I. With every bit of wilderness that disappears, we deprive ourselves of potential medicines. As much as I’d love to help develop a groundbreaking insect-derived medicine, my main motivation for looking at insects in this way is conservation. I sincerely believe that all species, however small and seemingly insignificant, have a right to exist for their own sake. If we can shine a light on the darker recesses of nature’s medicine cabinet, exploring the useful chemistry of the most diverse animals on the planet, I believe we can make people think differently about the value of nature.
Reading Passage 2 has nine paragraphs, A-I.
Which paragraph contains the following information?
Write the correct letter, A-I, in boxes 14-20 on your answer sheet.
14. mention of factors driving a renewed interest in natural medicinal compounds.
15. how recent technological advances have made insect research easier
16. examples of animals which use medicinal substances from nature
17. reasons why it is challenging to use insects in drug research
18. reference to how interest in drug research may benefit wildlife
19. a reason why nature-based medicines fell out of favor for a period
20. an example of an insect-derived medicine in use at the moment
Choose TWO letters, A-E. Write the correct letters in boxes 21 and 22 on your answer sheet.
Which TWO of the following make insects interesting for drug research?
A. the huge number of individual insects in the world
B. the variety of substances insects have developed to protect themselves
C. the potential to extract and make use of insects’ genetic codes
D. the similarities between different species of insect
E. the manageable size of most insects
Complete the summary below. Choose ONE WORD ONLY from the passage for each answer. Write your answers in boxes 23-26 on your answer sheet.
Research at Aberystwyth University
Ross Piper and fellow zoologists at Aberystwyth University are using their expertise in 23………………………… when undertaking bioprospecting with insects. They are especially interested in the compounds that insects produce to overpower and preserve their 24…………………………. They are also interested in compounds which insects use to protect themselves from pathogenic bacteria and fungi found in their 25………………………… Piper hopes that these substances will be useful in the development of drugs such as 26……………………………..
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