Virusphere. Frank Ryan
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Since we don’t yet have suitable tissue cultures or animal models to study the norovirus, we are not in a position to examine the ways in which it provokes the vomiting and diarrhoea, which play a key role in spreading the virus far and wide throughout the world. Currently there is no preventative vaccine, but trials of an oral vaccine are taking place as I write. Let us cross our fingers and hope that these trials are rewarded with an early success!
In the summer of 1921 the 39-year-old Franklin D. Roosevelt fell overboard from his yacht on the Bay of Fundy, a beautiful if freezing inlet between the eastern Canadian provinces of New Brunswick and Nova Scotia. The following day he was tormented by pain in his lower back and then, as the day progressed, he felt his legs grow increasingly weak until they could no longer sustain his body weight. This was the onset of Roosevelt’s poliomyelitis, at this time known as ‘infantile paralysis’. Poliomyelitis is caused by a virus that goes by the same name. In 1921 doctors were limited in their knowledge of the poliovirus, or indeed viruses as such. They might, however, have known that the virus did not infect Roosevelt while he was struggling in the cold water – the only infectious source of poliomyelitis virus is another person who has already contracted it. Once again, we are looking at an exclusively human reservoir. Moreover, the paralytic disease has an ancient pedigree.
Infantile paralysis was familiar to physicians in the time of the pharaohs of Egypt, since the effects of the disease were painted, with stunning accuracy, on the walls of their tombs. In 1921, as indeed today, there was no cure for the paralytic effects of the virus once it had afflicted a victim. Fortunately, Roosevelt was gifted with an extraordinary vitality and courage, enabling him to overcome the lifetime of paralysis that would result from his illness. It is to his credit that despite this handicap he became the 32nd President of the United States and he continued to serve the American people for an unprecedented four terms in office.
Viruses do not follow our human notions of rules and so they are apt to surprise us. One such surprise is that those viruses that replicate primarily in the gut – the so-called ‘enteroviruses’ – do not cause the usual symptoms of gastroenteritis. Instead, the viruses that do cause gastroenteritis are a miscellaneous group with members coming from widely different viral families. Of course, these include the genus of noroviruses within the family of calciviruses. Another group of gastroenteritis-associated viruses are the rotaviruses, a genus within the family of reoviruses, which cause vomiting, diarrhoea and fever in babies under the age of two years. Other similar offenders include adenoviruses, coronaviruses and astroviruses. We are sometimes inclined to joke about the clinical effects of gastroenteritis, but the truth is that this is a distressing condition in people of any age. Moreover, in less developed countries, gastroenteritis is one of the commonest causes of death in children, a tragic situation complicating poor hygiene and contaminated water supplies. As we might anticipate, these illnesses are transmitted by the faecal-oral route.
The ‘enteroviruses’ are also transmitted by the faecal-oral route and the viruses also replicate within the intestine, but curiously they do not present with the typical fever, vomiting and diarrhoea that typifies gastroenteritis. Instead they cause less predictable and often complex patterns of illness that affect various organs and tissues, for example, the brain and meninges, or the heart, skeletal muscles, skin and mucous membranes, the pancreas, and so on. The most familiar of this strange gamut of enterovirus-linked illnesses is poliomyelitis. All three ‘serotypes’ of the poliovirus, which have slight differences in their capsid proteins, are ‘enteroviruses’ within the family known as the picornaviruses. We might recall that these belong to the family of very small RNA-based viruses that includes the rhinoviruses. A cardinal feature of enteroviruses is that they are resistant to acid, so they can pass through the human stomach to replicate further down the alimentary tract. The poliovirus was the first of the enteroviruses to be discovered, earning its finders – Enders, Weller and Robbins – a Nobel Prize in 1954.
We should not be too surprised to discover that humans are the exclusive host of the poliovirus. The individual virion is a mere 18 to 30 nanometres in diameter. Under the electron microscope it has a capsid with the familiar icosahedral symmetry, which encloses a relatively simple RNA-based genome. In the small intestine, the virus binds to a specific receptor molecule in the lymphoid tissues of the pharynx and the ‘Peyer’s patches’ of the gut. Here the virus hacks its way into the interior of the cells, where it takes over the genetic processes to convert the cell into a factory for manufacturing daughter viruses. The daughter viruses are released through rupture of the infected cell, after which they re-invade neighbouring cells and repeat the process.
All of this sounds a trifle horrific and even potentially deadly. But in reality the great majority of individuals infected by poliovirus show little or no signs of disease other than, perhaps, a mild looseness of the bowels. But the stools of an infected individual will now be swarming with virus, which will be passed on to contacts through the faecal-oral route. Polio characteristically moves through populations in epidemic waves, with most of the infected unaware that they have encountered the virus. Only in a tiny minority does the virus make its way to the anterior horn nerve cells in the spinal cord, where infection and subsequent death of the nerve cells gives rise to the paralysis we saw in President Roosevelt. Bizarre as it might seem, the infection of the nerve cells appears to serve no purpose as far as virus transmission or evolutionary pathways are concerned. Indeed, this most dreaded complication of poliomyelitis appears to be coincidental.
The incubation period of poliovirus infection is usually a week to two weeks and, in the minority that show symptoms of infection, this involves a minor malaise, fever and a sore throat. These reflect the virus entering the bloodstream and will usually resolve without requiring any treatment and with no long-term consequences. Only in a small minority of those infected does polio give rise to a more severe illness. The onset is usually abrupt with headache, fever, vomiting – in some this may be accompanied by the neck stiffness typical of meningitis. Even still, the majority of symptomatic cases will go on to make a good recovery. But in the tiny but highly significant minority the paralysis of poliomyelitis sets in.
Paralytic poliomyelitis gets its name from the Greek polios for ‘grey’ and muelos, for marrow. This derives from the fact that the paralysis results from destruction of the grey marrow of the anterior horns of the spinal cord, which contain the cell bodies of the nerves that supply the muscles of arms, legs, chest and remainder of the trunk. The death of those cell bodies in the spinal cord causes a floppy style paralysis of the affected muscles, which is usually apparent within two or three days of the onset of the disease. In children affected by paralysis, this will have secondary long-term effects on limb growth and development. Bulbar poliomyelitis, a similar infection, causes damage to the nerve bodies of the cranial nerves, which results in paralysis of the pharynx and possibly accompanying difficulty with the muscles involved in breathing. This dreadful complication is why, before the advent of vaccination, some unfortunate patients ended up having to be supported by ‘iron lungs’.
We do not know why this unfortunate minority of infected individuals develop serious disease, including paralysis, from the poliovirus. There is some evidence that the virus gets into the central nervous system more commonly than is suggested by clinical signs. Indeed, as we shall see, this pattern of unwanted penetration into the central nervous system can feature in illnesses caused by other enteroviruses. One wonders if some genetic propensity might perhaps play some role, but it may be no more than