|
|
|
|
| SCIENCE & TECHNOLOGY |
|
|
|
The beginning of the end of malaria in sight
THIS UNIVERSE
Big asteroid has close encounter with Earth |
|
|
The beginning of the end of malaria in sight The Cambridge scientists’ discovery offers hope of something far more thrilling: the complete global eradication of the disease. That tantalising goal is significantly closer, thanks to the discovery of the critical component of human red blood cells that appears to be vital for the malaria parasite to complete its lifecycle within the human body. In effect, the deadly parasite’s “Achilles heel” has been identified. This means that it should be possible to design a vaccine that blocks the parasite’s development within an infected person — which, researchers believe, should prevent both the disease and its mosquito-borne transmission. Malaria is one of the world’s biggest childhood killers. Nearly a million people a year die from it, mostly children under five living in sub-Saharan Africa. Scientists have spent decades trying to devise vaccines which protect people against infection or can control the parasite’s development once it is inside the body. However, the complexity of the parasite’s lifecycle has frustrated the design of effective vaccines. But now, said Julian Rayner of the Sanger Institute, the crucial protein “lock” on the surface of human red cells that allows the mosquito to insert its “key” and gain entry has been found. “The interaction [between malaria parasite and red blood cell] that we have found has the potential to be the basis of a vaccine that would save millions of lives,” Dr Rayner told The Independent. “This is possibly the most exciting vaccine target for the past 10 years.” The work behind the breakthrough, published in the journal Nature, focuses on the second phase of the malaria lifecycle in the human body, after it leaves the liver to invade the red blood cells during its “merozoite” stage. Scientists at the Sanger Institute were able to identify a human protein, called basigin, on the surface membrane of the human red blood cells that the parasite appears to need to unlock the membrane and invade the cell. “The malaria parasite shuttles between mosquitoes and humans. But the stage that actually causes the symptoms of the disease is where the parasite invades human red blood cells,” Dr Rayner said. “It has to get inside a red blood cell to divide, spread and multiply — it’s essential for the parasite’s survival. But it’s also a potential target for attack.” Once the scientists had identified the key protein “receptor” on the membrane of the red cells, they devised experiments to see if it was possible to block the interaction between malaria parasite and cell. They succeeded with antibodies designed to recognise and stick to the corresponding receptor protein on the parasite — blocking the “key” used by the parasite to unlock red cells. “We can show that if we use antibody against the receptor we can completely block all detectable invasion by the parasite,” said Gavin Wright, whose laboratory at the institute devised the techniques for making pure malaria parasite proteins. “We have done experiments where we’ve raised antibodies against the parasite protein and again we’ve shown very strong inhibition of the invasion process. As a starting point for vaccine development, you couldn’t hope for better.” Professor Adrian Hill of the Jenner Institute in Oxford said the breakthrough could improve future vaccines. “Reports of positive results from ongoing trials in Africa are encouraging, but in the future more effective vaccines will be needed if malaria is to be eradicated,” he said. “The discovery of a single receptor that can be targeted offers the hope of a far more effective solution.”
|
||
|
THIS UNIVERSE Why are eyes round in shape? Particles of a liquid (water) move in all directions. Why then does the buoyant force always acts in the above perpendicular direction and not slanting on an object immersed in it? I do not quite know how to answer this question, except to say that we have to consider the resultant of the momentum transfer by all particles moving in various directions. Just consider the top and the bottom surfaces of a rectangular box immersed in water. The fact that the pressure of water near the bottom surface is higher than near the bottom surface, implies that the upward pressure on the bottom surface is higher than on top. That causes the resultant buoyant force. Readers wanting to ask Prof Yash Pal a question can e-mail him at palyash.pal@gmail.com
|
||
Big asteroid has close encounter with Earth Russian craft on Mars mission stuck in orbit NASA adds test flight for deep-space capsule “Mars
crew” played Counter-Strike to cool tempers
|
You wait for years for a breakthrough in the battle against malaria, and then two come along in two weeks. But the advance announced yesterday by scientists at the Wellcome Trust Sanger Institute in Cambridge is potentially far more significant than last month’s news of an experimental vaccine made by GlaxoSmithKline (and part-funded by Bill Gates), which showed partial success in early clinical trials. Scientists involved in those trials emphasised that the vaccine would only be able to contribute to the control of malaria.
This is a fascinating question. I suppose by saying ‘eyes’ the questioner is referring to the shape of the eye lens. I can only guess at the reason/reasons. It is easier to design and make a round lens. You just have to look at the lenses of the cameras that most cell phones have. Our eye lenses are slightly different. Perhaps not only slightly, but categorically different. Yet it seems possible that a nearly round shape makes it less complicated to make them to change their focal length in an operational situation. Also we should recognise that because of the beautiful scanning power of our eyes, controlled as it is with the sense making requirement placed by our brain, we need mostly the central region of our eye lens. I think that the designer made a good choice while fabricating our eye shape.