Principles of Virology, Volume 2. S. Jane Flint

Principles of Virology, Volume 2 - S. Jane Flint


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target="_blank" rel="nofollow" href="#ulink_424f9e11-aece-53c4-85ed-3291f4f650b3">Figure 2.13 Entry, dissemination, and shedding of blood-borne viruses. Shown are the target organs for some viruses that enter at epithelial surfaces and spread via the blood. The sites of virus shedding (red arrows), which may lead to transmission to other hosts, are also shown.

      The migratory nature of many immune cells allows viruses that infect these cells to move quickly and clandestinely throughout the host. Because viral components are inside a cell during transport, they are effectively shielded from antibody recognition. Traversing the blood-brain barrier poses a particular challenge for a free virion, as the capillaries that make up this unique barrier limit the access of serum molecules to the brain. However, activated macrophages can pass through, freely de livering viruses such as measles, some enteroviruses, and chikungunya virus into the brain tissue. This process is often referred to as the Trojan Horse approach, because of its similarity to the legend of how the Greeks invaded and captured the protected fortress of Troy. In this legend, the Greeks built a large wooden horse that was disguised as a victory trophy, but instead, many Greek soldiers hid within the hollow horse. Once the “gif horse” was safely inside the city walls, the soldiers emerged and quickly achieved victory.

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      Viremia is of diagnostic value to monitor the course of infection in an individual over time, and epidemiologists use the detection of viremia to identify infected individuals within a population. Frequently, it may be difficult, or technically impossible, to quantify infectious particles in the blood, as is the case for hepatitis B virus. In these situations, the presence of characteristic viral proteins, such as the reverse transcriptase for human immunodeficiency virus type 1, and the presence of the viral genome provide surrogate markers for viremia.

      TERMINOLOGY

       The viruses in your blood

      If you have ever received a blood transfusion, along with the red blood cells, leukocytes, plasma, and other components, you also were likely infused with a collection of viruses. A recent study of the blood virome of more than 8,000 healthy individuals revealed a total of 19 different DNA viruses in 42% of the subjects.

      Viral DNA sequences were identified among the genome sequences of 8,240 individuals that were determined from blood. Of the 1 petabyte (1 million gigabytes) of sequence data that were generated, ∼5% did not correspond to human DNA. Within this fraction, sequences of 94 different viruses were identified. Nineteen of these were human viruses. The method is not expected to reveal RNA viruses except retroviruses that are integrated as DNA copies in the host chromosomes.

      The most common human viruses identified were herpesviruses, including cytomegalo virus, EpsteinBarr virus, herpes simplex virus, and human herpes viruses 7 and 8, found in 14 to 20% of individuals. Anelloviruses, small viruses with a circular genome, were found in 9% of the samples. Other viruses found in less than 1% of the samples included papillomaviruses, parvoviruses, polyomavirus, adenovirus, human immunodeficiency virus type 1, and human Tcell lymphotropic virus (the latter two integrated into host DNA).

      The other


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