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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seronegative whilst others remain seropositive, but, in both instances, it is impossible to detect the parasites with the usual diagnostic tests. Those who become seronegative have presumably repelled the parasites and cleared them from their body, but those who remain seropositive are presumably tolerant of their infection. This begs the question of where the infection in the seropositive individuals is residing. It now looks likely that the trypanosomes are located within the skin rather than the vasculature (Capewell et al. 2016). Furthermore, the parasites within the skin can infect tsetse flies when they feed. It is uncertain whether infected but asymptomatic individuals represent a significant reservoir of infection for tsetse flies.

      HAT is predominantly a disease afflicting poor people living in rural environments in some of the more politically unstable parts of Africa. Consequently, there is widespread under‐reporting of the disease. In 2006, the WHO estimated there to be 20,000 cases of HAT every year, although a few years later Brun et al. (2010) suggest that there are between 50,000 and 70,000 cases. Nevertheless, despite the difficulties of working in the affected regions, control programmes are proving effective, and by 2015, there were fewer than 3,000 reported cases (Büscher et al. 2017).

      Trypanosoma brucei brucei is essentially a parasite of wild and domestic animals, and it does not infect humans. Wild game (e.g., kudu [Tragelaphus strepsiceros], warthog [Phacochoerus aethiopicus]), and some native cattle breeds (e.g., N’Dame, Muturu, Masai Zebu) are ‘trypanotolerant’ and infections do not always lead to serious disease symptoms. By contrast, T. brucei brucei causes serious disease in many introduced varieties of domestic animals and they succumb to a condition called ‘nagana’ – a word derived from the Zulu language that means ‘to be in low or depressed spirits’. It also severely affects horses, sheep, goats, and dogs, and these often suffer an acute disease that culminates in the death of animal within 20 days to a few months of becoming infected. In cattle, T. brucei brucei tends to cause chronic disease that lasts several months, and the infected animal may ultimately recover.

      Trypanosoma brucei rhodesiense has a close genetic relationship to T. brucei brucei and occurs mainly East Africa – principally Tanzania and Uganda. In addition to infecting humans, it also parasitizes many wild game animals. Consequently, T. brucei rhodesiense is a zoonotic disease with numerous reservoirs of infection. Rhodesiense HAT is usually an acute infection although in some geographical regions a less severe disease occurs.

      Trypanosoma brucei gambiense is the principal cause (~90% of cases) of HAT. Gambiense HAT usually follows a chronic course over a period of years, and severe nervous system impairment only ensues in the late stages of the disease. It occurs mainly in West and Central Africa with most cases in Democratic Republic of Congo, Angola, and Sudan. Although T. brucei gambiense infects various wild animals, the importance of zoonotic transmission in the epidemiology of gambiense HAT is uncertain.

      Source: Redrawn from Chandler and Read (1961), © Wiley‐ Blackwell.

Photo depicts light microscope photograph of trypomastigote stages of Trypanosoma brucei.

      Genomic Regulation in Trypanosomes

      In most eukaryotic organisms, the regulatory processes that take place after the conversion of DNA into RNA are of greater complexity and importance than transcription itself. Trypanosomes take this process to its limits and undertake genome regulation almost entirely at post‐transcriptional level (Queiroz et al. 2009). The formation of proteins in trypanosomes is not regulated by the rate at which mRNA is synthesised but occurs through factors that control the stability of the mRNA molecules (i.e., alter their half‐life and hence concentration) and the rate at which mRNA is translated into protein. RNA binding proteins perform much of this posttranscriptional regulation. Rapid changes in the half‐life of mRNA molecules and translational control regulate adaptions to environmental change such as the movement between vector and mammalian host (Schwede et al. 2012).

      Once established within their vertebrate host, the trypanosomes rapidly disseminate about the body via the blood and lymphatic system. Unlike T. cruzi and Leishmania, T. brucei remains an extracellular parasite