Investigation of the piroplasm diversity circulating in wildlife and cattle of the greater Kafue ecosystem, Zambia

Squarre, David; Nakamura, Yoshinari; Hayashida, Kyoko; Kawai, Nobuyoshi; Chambaro, Herman M.; Namangala, Boniface; Sugimoto, Chihiro; Yamagishi, Junya

doi:10.21203/rs.3.rs-53560/v3

Cited by 2 publications

(2 citation statements)

References 21 publications

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“…Colpodella gonderi was identified in the urine of a human case of urinary tract infection with an uncertain etiology, using Giemsa staining [12]. Colpodella species have been reported in various animals including in cattle and Rhipicephalus microplus ticks infesting cattle with 100% sequence identity to Colpodella sequences identified from a raccoon dog in Poland [13]. Colpodella sp.…”

Section: Introductionmentioning

confidence: 99%

Sam-Yellowe’s Trichrome Staining Identifies Life Cycle Stages of Opportunistic Free-Living Colpodellids

Sam-Yellowe,

Salti,

Adeloye

2024

Preprint

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The colpodellids consist of free-living predatory protists phylogenetically related to pathogenic Apicomplexan parasites such as Plasmodium species, Cryptosporidium sp. and Toxoplasma gondii. Among the colpodellids, Colpodella species prey on bodonids, algae, and ciliates. Voromonas pontica preys on Percolomonas species. In the past decade, Colpodella species have been reported to cause opportunistic infections in humans and animals, and having the potential for zoonotic infections in humans due to the presence of Colpodella species in ticks. In the reported cases, transmission and pathogenic stages of Col-podella were not identified by light microscopy. In the colpodellid V. pontica, cyst stages of both the pred-ator and its prey Percolomonas cosmopolitus have not been identified by light microscopy. In this study we evaluated the dye components used for Sam-Yellowe’s trichrome staining, from different major vendors to determine the consistency and reproducibility of the staining protocol to aid the use of the staining proto-col for diagnosis. We show that although slight variations in the color of the stained cells are obtained, life cycle stages of Colpodella ATCC 50594 could be clearly identified, regardless of the vendor used. For the first time, Sam-Yellowe’s trichrome staining series, could identify cysts of V. pontica and its prey, demonstrating that the staining protocol can identify life cycle stages of other colpodellids. Sam-Yellowe's trichrome staining will aid molecular diagnosis of infections caused by colpodellids in human and ani-mals, identify colpodellids in ticks and flies and from environmental samples, when used for staining.

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Section: Introductionmentioning

confidence: 99%

Sam-Yellowe’s Trichrome Staining Identifies Life Cycle Stages of Opportunistic Free-Living Colpodellids

Sam-Yellowe,

Salti,

Adeloye

2024

Preprint

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“…These novel opportunistic infections by Colpodella species are considered underreported emerging zoonotic pathogens requiring urgent attention [18,42]. The identification of Colpodella species in wide ranging animal hosts such as cattle and wild life [43], horses [18], and raccoons [20] and in the ticks infesting the animals such as in the ticks infecting camels [44] and goats [22], poses a public health threat for humans in close contact with the animals. So far, Colpodella species have been identified in the ticks, Ixodes persulcatus, Rhipicephalus microplus, Dermacentor, Haemaphysalis longicornis and Hyalomma dromedarii [11,14,15,19,22,44].…”

Section: Introductionmentioning

confidence: 99%

Emerging Opportunistic Colpodella Species: Nutrient Uptake and Approaches to Diagnose Infections

Salti,

Sam-Yellowe

2024

Preprint

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Colpodella species are free-living opportunistic pathogens that cause human and animal infections and use ticks and flies as vectors. Trophozoite and cyst stages of Colpodella species can be distinguished from stages of the prey Parabodo caudatus using Sam-Yellowe’s trichrome staining. Colpodella species obtain nutrients by attaching to their prey, aspirating the prey’s cytoplasmic contents into a posterior food vacuole and encysting. It is unclear whether both trophozoite and cyst stages are present during infection. Molecular techniques identified Colpodella species in all reported infections. However, no morphological information was reported to aid life cycle stage identification in hosts. This review discusses the increased incidence of Colpodella infection in animals and in vectors and the need to identify stages used for transmission and pathogenesis. The potential for zoonotic infections through tick and fly bites is a public health concern. We previously used Sam-Yellowe’s trichrome staining to identify life cycle stages of Colpodella sp. In order to gain a better understanding of transmission and pathogenesis, identifying Colpodella life cycle stages in infected tissue and in vectors will provide important insights regarding nutrient uptake in hosts by determining whether attachment of trophozoites to host cells occurs, and identifying trophozoites and cysts in infected hosts.

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Investigation of the piroplasm diversity circulating in wildlife and cattle of the greater Kafue ecosystem, Zambia

Cited by 2 publications

References 21 publications

Sam-Yellowe’s Trichrome Staining Identifies Life Cycle Stages of Opportunistic Free-Living Colpodellids

Sam-Yellowe’s Trichrome Staining Identifies Life Cycle Stages of Opportunistic Free-Living Colpodellids

Emerging Opportunistic Colpodella Species: Nutrient Uptake and Approaches to Diagnose Infections

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