Abstract
Babesia infection of red blood cells can cause a severe disease called babesiosis in susceptible hosts. Bovine babesiosis causes global economic loss to the beef and dairy cattle industries, and canine babesiosis is considered a clinically significant disease. Potential therapeutic targets against bovine and canine babesiosis include members of the exportome, i.e., those proteins exported from the parasite into the host red blood cell. We developed three machine learning-derived methods (two novel and one adapted) to predict for every known Babesia bovis, Babesia bigemina, and Babesia canis protein the probability of being an exportome member. Two well-studied apicomplexan-related species, Plasmodium falciparum and Toxoplasma gondii, with extensive experimental evidence on their exportome or excreted/secreted proteins were used as important benchmarks for the three methods. Based on 10-fold cross validation and multiple train–validation–test splits of training data, we expect that over 90% of the predicted probabilities accurately provide a secretory or non-secretory indicator. Only laboratory testing can verify that predicted high exportome membership probabilities are creditable exportome indicators. However, the presented methods at least provide those proteins most worthy of laboratory validation and will ultimately save time and money.
Highlights
Babesia bovis, B. bigemina, and B. canis are tick-transmitted, obligate intracellular, haemoprotozoan parasites of the phylum Apicomplexa [1]
We propose that it is likely that Babesia has more than one signal directing an exported protein ( parasitophorous vacuole membrane (PVM) is not a barrier as it disappears within minutes of invading the red blood cells (RBCs) [69])
The three described methods assigned a probability score expressing exportome membership to all known B. bovis T2Bo, B. bigemina BOND, and B. canis BcH-CHIPZ proteins
Summary
B. bigemina, and B. canis are tick-transmitted, obligate intracellular, haemoprotozoan parasites of the phylum Apicomplexa [1]. Bovine babesiosis (‘tick fever’) has the potential to occur wherever ticks and cattle have common geographical locations. This disease has nearly a worldwide distribution, with most prevalence in subtemperate and tropical areas [3,4]. Canine babesiosis is a clinically significant emerging infectious disease, with a potential worldwide distribution [2,7] It is currently controlled with varying degrees of success by drug therapy, vaccination with soluble parasite antigens (SPA) from in vitro cultures, and vector control measures [7,8,9]. Several reviews [1,3,5,10,11,12] expand on the current understanding of Babesia
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