Parasitology. Alan Gunn. Читать онлайн. Newlib. NEWLIB.NET

Автор: Alan Gunn
Издательство: John Wiley & Sons Limited
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Жанр произведения: Медицина
Год издания: 0
isbn: 9781119641223
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in Entamoeba nutalli, which is a virulent intestinal parasite of macaques that also cause liver abscesses. However, this gene has also been identified in E. dispar and E. moshkovskii, which are generally considered non‐pathogenic (Weedall 2020). It is possible that variations in the pathogenicity of species of Entamoeba and their various strains may reflect differences in the expression of the gene coding for KERP1 rather than its presence or absence.

      Despite the problems of identification, there is no doubt that E. histolytica is a major cause of disease in many parts of the world but particularly in developing countries. Every year, many millions develop amoebic dysentery or hepatic amoebiasis. The debilitating symptoms of these conditions can last for months or even years and 40,000–110,000 people are thought to die each year from their infections.

      The trophozoite is 12–60 μm in size and has a clear granular outer cytoplasm, a more densely granular inner cytoplasm, and there is an aggregated region of chromatin referred to as a karyosome centrally located within the nucleus. Reproduction takes place asexually by cell division and through cyst formation. The stimuli causing the trophozoites to transform into cysts are uncertain, but it is an essential part of the life cycle. Therefore, targeting cyst formation using drugs might reduce parasite transmission (Mi‐ichi et al. 2019). The cysts are 10–15 μm in diameter and (when mature) contain four nuclei and characteristic bar‐shaped chromatoidal bodies that serve as a store of nucleoprotein. The cell wall contains chitin that provides protection and enables the cyst to survive in the outside environment for several months under favourable conditions. The output of cysts is enormous, and an infected person may excrete over 10 million cysts per day in their faeces.

Schematic illustration of life cycle of Entamoeba histolytica.

      After an infective cyst reaches our small intestine, the amoebae emerge and undergo a complicated series of divisions to produce eight trophozoites. Subsequently, peristalsis sweeps the amoebae down to the large intestine (colon) where they multiply in the lumen and may invade the gut wall. Avirulent strains of E. histolytica remain in the lumen of the colon and cause humans no harm. Those that are virulent attack and ingest the epithelial cells lining the gut wall and then proceed to spread through underlying layers. In the process of invasion, they cause the formation of flask‐shaped ulcers. In serious infections, ulceration and bleeding occur over large areas of the intestine (Figure 3.2c). Consequently, the trophozoites of virulent strains often contain ingested red blood cells within their food vacuoles. This can be useful in laboratory diagnosis. A great deal of water is normally re‐absorbed in our colon. Consequently, reducing its functional surface causes a decline in water re‐absorption. In severe cases, the reduction in water reabsorption coupled with the loss of blood and fluids leads to emaciation and death from dehydration. The ulceration explains why patients suffering from amoebic dysentery frequently complain of gastric pain. Also, together with loss of fluids it means that patients pass stools that are loose and contain mucus and blood mixed with faecal material. These symptoms are distinct from bacterial dysentery in which there is no cellular exudate.

Photo depicts entamoeba histolytica.

      For further details of the biology and pathogenesis of E. histolytica, see Nozaki and Bhattacharya (2015).

      Entamoeba dispar is morphologically indistinguishable from E. histolytica and has the same life cycle, but it is normally considered a harmless commensal. Nevertheless, there is some evidence suggesting it occasionally causes lesions in the intestines and liver (Oliveira et al. 2015). It is much more prevalent than E. histolytica, and therefore,