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Variola virus belongs to the genus Orthopoxvirus, the members of which cause skin lesions in mammals. The infection with this virus caused several different patterns of illness, ranging from the “classic” vesiculopustular exanthema to rapidly lethal disease lacking the typical rash, indicating that these clinical variants were significantly determined by host factors.
One of the most intriguing questions in the evolution of the orthopoxviruses is the origin of variola virus, which may have killed as many as 300 million people over the centuries. Genomic studies of a set of variola virus isolates have shown the patterns of phylogenetic relationships between geographic variants of this highly pathogenic virus.
Unlike vertebrates, for which we have paleontological data, and RNA viruses, which exhibit a high rate of genetic variation, an objective estimate of time parameters for the molecular evolution of DNA viruses is a rather complex problem - primarily since they show a low rate of accumulation of mutations.
As variola virus lacks a known non-human animal reservoir, its origin as a human pathogen has been concealed under a veil of mystery. The evolutionary history of this virus can be dated based on either the assumed dates of variola virus subtypes diverging from the ancestors, or the dates of isolated samples that contain variola virus.
It is known that smallpox was exported to Central and South America from West Africa in the early 16th century, which resulted in epidemics with high case fatality ration among the local population. Important recombination events that play a role in the evolution of variola virus created relatively short, local inconsistencies in phylogenetic trees.
Still, subsequent smallpox outbreaks in America had shown low lethality, and the virus that caused these epidemics was given the name variola minor alastrim. During its spread to the American continent, the evolution of the West African subtype of variola virus led to reduction in the case fatality rate of smallpox from 12% to less than 1%.
Based on data from restriction fragment length polymorphism analysis, it was confirmed that variola minor alastrim originated from the West African strains of the virus. Furthermore, it was calculated that the rate of mutation accumulation in these viruses amounts to 0.9-1.2 x 10-6 substitutions per site per year.
Phylogenetic reconstructions suggest that camelpox virus, taterapox virus and variola virus emerged from a common progenitor almost simultaneously. Additionally, these viruses are strictly specific for their hosts, and both variola virus and camelpox virus cause diseases with high case fatality rates.
Upon infection with variola virus, approximately 90% of unvaccinated individuals used to develop ordinary smallpox, characterized by an incubation period from 7 to 17 days, a 2-3-day flulike prodrome characterized by severe headache, backache and fever, and a centrifugally distributed rash.
Almost one-half of these patients had a disease type where pocks were sufficiently low in number to remain separated by normal skin. The rest of affected individuals developed more serious illness, where a larger number of lesions became confluent in certain areas.
The mortality rate for ordinary smallpox differed according to the number of skin lesions - ranging from approximately 10% for discrete disease to almost 30% for confluent disease. In fatal cases, hypotension and fever progressed to steadily worsening shock.
Clinical descriptions of the disease indicate that smallpox always had a high case-fatality rate until around the end of the 19th century, when a more benign form of the disease (with a similar rash but substantially lower mortality rate) emerged in the Western Hemisphere.
Such less lethal types of smallpox were also seen in Africa, where they may have existed for some time. These milder variants are now known as “variola minor”, in contrast to the traditional form of the disease known as “variola major”. Disease severity was also determined by the propensity of host responses to limit viral replication during the incubation period.