Molecular identification of Theileria species in cattle in Mosul city | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Iraqi Journal of Veterinary Sciences | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Volume 38, Issue 1, January 2024, Pages 183-189 PDF (665.25 K) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Document Type: Research Paper | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
DOI: 10.33899/ijvs.2023.141344.3112 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Authors | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Haithaum S. Albakri* ; Eman Gh. Suleiman* ; Ahlam F. Al-Taee* | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Department of Microbiology, College of Veterinary Medicine, University of Mosul, Mosul, Iraq | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Abstract | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
This study showed that total percentage of infection with Theileria species in 100 blood samples of cattle in Mosul City was 38% with no significant differences between male and female of cattle. Cattle older than 1 year old had a high percentage of Thieleria infection 40% compared to younger cattle 34.28%, with no significant variations in Thieleria infection and age groups of cattle. Theileria measurement in red blood cells ranged from 0.5 to 2 microns, while parasitemia levels ranged from 0.2 to 15%, with an average of 6.572%. The results of molecular diagnosis confirmed the detection Theileria genus, Theileria annulata, and Theileria parva in blood samples of examined cattle and PCR revealed that the amplification products were 237bp, 690bp, and 700bp, respectively. In this study, we recorded new strains of Theileria in cattle of the Nineveh governorate by using the BLAST program consisting of three strains of T. annulata, one strain of Theileria ovis and two strains of Theileria parva which differs from the normal isolates in many nucleotides in different worlds. The phylogenetic tree showed the relative relation among the Theileria spp, the results matching species between 8 and 11, 1 and 4, 6 and 10, 3 and 9, and 2 and 12; the species 7 were more closely linked to 11 and 8, the species five similar to 6 and 10. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Theileria annulata; Theileria parva; Diagnosis; PCR | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Introduction
Regarding meat and milk production, cattle and buffaloes are among the vital components of the livestock industry. Numerous infections that endanger these animals' health are exposed to them, including theileriosis (1-4). Thieleria is a genus of intracellular protozoan parasites in agricultural animals worldwide, particularly in the Middle East (5). Both domestic and wild cattle are affected by this substance. East Coast Fever (ECF) and Tropical Theileriosis (TT) are caused by the two most significant and pathogenic species, T. parva and T. annulata respectively (6). Thielaria can be transmitted trans-stadially by the tick vectors, mechanically through routine rearing practices, Rhipicephalus appendiculatus, a hard tick's vector for Theileria parva, and Hyalomma ticks, a vector for Theileria annulata. Both disseminate Theileria species (7,8). Pasture tick infestations can last up to two years depending on the weather. Skin injury and blood loss are the results. Meanwhile, the parasite prevents the animal from receiving nutrients by infecting the red blood cells of vertebrates, including pets (9). Theileriosis in cattle typically manifests as pale mucous membranes, depression, lethargy, lack of appetite, fever, widespread lymphadenopathy, anorexia, loss of condition, collapse, and, in some cases, death if the animal is made to move or run. Pregnant cows frequently experience miscarriages and stillbirths, or their milk supply may decrease while their somatic cell count rises in dairy cows (9). Thielieria and Babesia are closely related, However Theileria differs from them in that it has a leukocyte developmental stage profile before infecting erythrocytes (10). Thieleria infection decreases meat and milk production, causes several problems, and may increase mortality rates from an economic standpoint (11,12). For instance, 800 million dollars was expected to be lost annually in India's economy (9). The definitive diagnosis is reached by combining of appropriate clinical signs and lab examinations. Theileria parasites found in blood smears and a needle biopsy of a lymph node stained with the Giemsa stain are typically used to diagnose. Since most Theileria form piroplasm is physically identical and schizonts are not always present in the superficial lymph nodes during illness cycles, type-specific detection is challenging. Sometimes used to detect Theileria spp., PCR assays plus a DNA probe are highly sensitive for detecting even low infection levels (13-15). The study aimed to use microscopic and molecular diagnosis (Polymerase Chain Reaction, Sequencing, Phylogenic study) to know Thieleria species affecting cattle in order to control the disease due to the lack of studies on bovine Theileria parasite in Nineveh Governorate, as well as to find out, record the species of the genus, that microscopic differentiation is difficult between species, as well as with other species of genus Babesia.
Materials and methods
Ethical approve This study has been approved by the scientific committee of department of Microbiology, Collage of Veterinary Medicine, University of Mosul at the first congress, dated 4/10/2021
Blood samples collection From cattle showing signs of theileriosis in various locations throughout the Nineveh Governorate, 100 blood samples were randomly selected from both sexes and different age groups. Blood samples were drawn from the jugular vein using sterile syringes and 70% ethyl alcohol to sterilize the region. The blood samples were kept in EDTA-containing tubes, and each sample's collection date, age, and sex were noted. The samples were then brought to the College of Veterinary Medicine/University of Mosul's Parasitological Laboratory for a laboratory analysis.
Microscopic examination Thin blood smears were prepared and stained with Giemsa stain at a concentration of 5% for 30 to 60 minutes and were viewed under a light microscope. Thin blood smears were utilized to determine the shape and measurement requirements for laboratory evaluation to diagnose the Theileria parasite in cattle (16). The following formula was used to get the parasitism percentage: Number of affected RBCs/numbers of calculated RBCs*100.
DNA extraction from blood DNA was extracted from blood samples containing Thailaria using a DNA extraction kit (Qiagen). In order to rehydrate the DNA pellet, 100µ l of rehydration solution was added, and it was then stored at -20°C until the next test.
Polymerase chain reaction (PCR) PCR was done to confirm the diagnosis of Theileria spp. by using the primers (Table 1).
Table 1: Types of primers and sequences of nucleotides of primers used for diagnosis of Theileria genus, Theileria annulata and Theileria parva by using PCR technique
The PCR reaction mixtures were created in 20 µl containers with 10 µl of Master mix (Promega 2X), 1 µl of each primer, 4 µl of DNA template, and 4 µl of PCR-grade water. The multiplication reaction was performed using the custom program, as stated in table 2, after the PCR was completed using a thermocycler (Optimum 96 G Germany).
Table 2: Steps of a conventional PCR program
Electrophoresis separated the amplified products on 2% agarose gel in a 4 µl red safe. Each PCR result was placed into the agarose gel's well in a 4µl volume. The electrophoresis was performed using a power supply with 1X TBE buffer at 60 V for 45 minutes. The typical molecular marker was a 100 bp DNA marker (Biolaps), and 4µl of the gel was looked at using UV light (Gel Do cumintation).
Determination the nucleotide Theileria's nitrogenous base sequences were performed by the Hitachi Genetic Analyzer 3130 (Japan) and matched with NCBI using the BLAST tool for 12 positive samples.
Results
Giemsa staining 100 blood smears of cattle, and 38 (38%) tested positive for Theileria species (Table 3). Males exhibit significantly higher positive blood test results for Theileria than females (40 versus 35), with no discernible variations between the sexes (Table 4). Theileria spp. infection in the same litters did not significantly differ between males and females. Cattle older than one year old had a steady percentage of Thieleria infection 40% compared to younger cattle 34.28%, with no discernible variations in Thieleria infection and age groups of cattle (Table 5).
Table 3: Number of cattle investigated, quantity of cattle infected with Theileria species, and proportion of infection determined by Giemsa stain
Table 4: Interdependence of infection with Theileria and sex of animals
Similar letters mean that there is no significant difference in the percentage of infection with Theileria and the sex of the cattle.
Table 5: Correspondence of infection with Theileria and age of animals
Similar letters mean that there is no significant difference in the percentage of infection with Theileria and the age of the cattle.
Blood smear microscopy analysis revealed the presence of intra-erythrocytic forms of Theileria species, including rod, round, oval, comma, ring- shaped, and organisms that resemble Anaplasma (Figure 1). Theileria's length in red blood cells ranged from 0.5 to 2 microns, while parasitemia levels ranged from 0.2 to 15%, with an average of 6.572%.
Figure 1: Theileria spp. were found in intra-erythrocytic (rod-shaped, circular, comma-shaped) in thin blood smears (Giemsa-stained 100X by using a digital camera)
The bands of DNA extracted from positive blood samples for Theileria species in a 25 ng/µl concentration. The concentration of extracted DNA was 50- 100 ng with a purity of 1.7. The polymerase chain reaction results suggested that the DNA samples that were extracted and used in this reaction might be used to diagnose Theileria genus, Theileria annulata, and Theileria parva. PCR revealed that the amplification products were 237bp, 690bp, and 700bp, respectively (Figures 2-4). Ten Theileria annulata isolates and one Theileria ovis isolate's genetic sequences were documented. According to table 6, the International Genbank's website provided the sequence numbers (Table 6).
Figure 2: PCR reaction of Theileria genus with a reaction product of 237 bp.
Figure 3: The PCR reaction of the parasite, Theileria annulata, with a reaction product of 690 bp.
Figure 4: The PCR reaction of the, Theileria prava, with a reaction product of 700 bp.
Table 6: Determination of genetic diversity of Theileria spp. Parasite identified in bovine blood samples
The six new isolates differ from the normal isolate in many nucleotides in different worlds, according to the sequencing results, and the new isolates of Theileria in cattle of the Nineveh governorate were reported using the BLAST tool consisting of three isolates of Theileria annulata, one isolate of Theileria ovis and two isolates of Theileria parva (Table 7).
Table 7: Thieleria new isolates from cattle blood samples diagnosed by (NCBI) according to the BLAST program
The phylogenetic tree showed the relative relation among the twelve Theileria isolates from cattle, the results matching species between Theileria annulata (8 and 11), Theileria annulata (1 and 4), Theileria annulata ( 6 and 10), Theileria annulata (3 and 9), and Theileria annulata 2 and Theileria ovis 12, the isolate Theileria annulata 7 were more closely linked to isolate Theileria annulata 11 and 8,the isolate Theileria annulata five similar to isolate Theileria annulata (6 and 10) (Figure 5).
Figure 5: Phylogenetic tree analysis from Theileria spp.
Discussion
Although the clinical indicators and blood smear examination are frequently accurate in detecting parasitic infection, the disease cannot be accurately diagnosed with these techniques due to their insufficient sensitivity. Using Giemsa-stained blood smears, the current investigation found that 38% of the investigated animals were positive for the Theileria species. This result was in accordance with Kundave et al. (19), who discovered that the percentage of Theileria infection by utilizing Giemsa-stained thin blood smear was 30.98%, while Yaghfoori and Gh (8), El-Dakhly et al. (20), Rad et al. (21) and Tookhy et al. (22) recorded lower percentages of infection by Giemsa staining method, namely 22%,12.93%,9.31%, and 3.75%. Another study stated that 4% and 37% of cattle in the Herat region had Theileria spp. (23). Higher infection rates may be connected to early acute stage microscopic examination making it simple to find both intracellular piroplasms and intralymphatic Koch's blue bodies (21,24). In our study, the proportion of Theileria infection appeared to be high prevalence in cattle aged 1-2 years and cattle aged two years was 40%. This result was consistent with findings from studies (20,25), which found that T. annulata infection was more common in adult cattle, while Yaghfoori and Gh (8), and Durrani (26) were concerned that the high occurrence of Theileria was seen in animals under a year old, these findings conflicted with them. The physiological aspects, such as oestrus, were disclosed by Durrani (26) and Morzaria (27). Additionally, the antibodies to Theileria that protect the calves against Theileria infection may be the reason for the low incidence of disease in calves under one year old (28) due to pregnancy and lactation's temporary reduction of immunity and the increase in the percentage of infection in adult cattle. A more significant percentage of Theileria species infection was identified in the current study in female cattle than in male cattle, which was in keeping with Ayadi et al. (14), Inci et al. (29) and Kamani et al. (30). According toAl- Saeed et al. (13), females have higher hormonal swings and a relatively weaker immune system, which enhances the likelihood of disease. Additionally, because female cattle are kept for various functions, including reproduction and milk production, and because they spend much time in the meadows, Kamani et al. (30) found that tick-borne diseases in female cattle occur at a high incidence. Theileria annulata and Theileria parva were diagnosed using primers developed based on Al-Saeed et al. (13), Odongo et al. (17), and Al-Hosary et al. (18) which yielded a base pair of 237, 690, and 700. This study's findings in diagnosing the genus Theileria, Theileria annulata, and Theileria parva coincided with the investigations of Lempercur et al. (5), Yaghfoori and Gh(8), d'Oliveira et al. (12), Silatsa et al. (31), Khatoon et al. (32) and Al-Shabbani and Alfatlawi (33). PCR technique is one of the most sensitive and specific methods for determining the pathogens (34-36) and using microscopic analysis of blood smears stained with Giemsa, is not sufficient for detecting species of Theileria that are challenging to discriminate and define the species of Theileria (37-39). Phylogenetic research helps establish the basis for genetic differences and evolutionary relationships between parasite species. Genetic diversity in parasites is crucial for establishing control strategies like medication treatment and immunization and parasite species (40). Each species might have a unique nucleotide, because the environment impacts it. As a result, the species can adapt to shifting environmental factors. The sequencing results demonstrated the discovery of new isolates, detected for the first time and differ from typical isolates in many nucleotides. The organisms adjust to this situation by mutating to build new genes for proteins, which helps them endure the harsh conditions and prepare for development. The nucleotides change may be caused by environmental causes. When an organism is isolated from its environment, it often responds to the conditions. In these cases, the organism may undergo mutations that affect one or more nucleotides, depending on the triple sequence of the protein molecule, or that affect amino acids with more than one code.
Conclusion
PCR technique is one of the most sensitive and specific methods for determining the Theileria and using microscopic analysis of blood smears stained with Giemsa, is not sufficient for detecting species of Theileria that are challenging to discriminate and define the species of Theileria. In this study new isolates of Theileria in cattle of the Nineveh governorate were reported by using the BLAST tool consisting of three isolates of Theileria annulata, one isolate of Theileria ovis and two isolates of Theileria parva
Acknowledgments
The authors like to thank department of microbiology, college of Veterinary Medicine, University of Mosul for their effort and support given to the current study.
Conflict of interest
The authors confirm no conflicts of interest in the publication of this paper. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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