Abstract
Hypodermosis is a distinctive ectoparasitic disease infesting cattle; Hypoderma bovis and Hypoderma lineatum are the most common causes of this myasis. In this study 78 larvae were collected from infected cattle by extraction in the Educational Veterinary Hospital, from Kokjali and Bazwaya flocks and from the skin of slaughtered in Mosul abattoirs for the period from October 2020 to March 2021. Morphological identification by using stereomicroscope depending on patterns of spinulation of the 10th abdominal segment and peritremes structure of L3 classified as H. bovis and H. lineatum. Molecular technique by traditional PCR applied on 16 L3 of the genus Hypoderma revealed that the reaction product was 500 bp by amplification of mt CO1 gene while the results of PCR-RFLP using restriction TaqI enzyme for differentiation between the two species indicated reaction products 300bp for H. bovis and 200bp for H. lineatum respectively. The results of molecular analysis by PCR and PCR-RFLP proved the existence of these two species of Hypoderma in Mosul.
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Morphological and Molecular diagnosis of Hypoderma spp. in Mosul city, Iraq
D.G. Alhamdani and N.S. Alhayali
Department of Microbiology, College of Veterinary Medicine, University of Mosul, Mosul, Iraq
duaaalhamdani285@gmail.com, 0000-0002-0532-1052
nadias.alhayali@gmail.com, 0000-0003-4578-2256, Correspondence
Abstract
Hypodermosis is a distinctive ectoparasitic disease infesting cattle; Hypoderma bovis and Hypoderma lineatum are the most common causes of this myasis. In this study 78 larvae were collected from infected cattle by extraction in the Educational Veterinary Hospital, from Kokjali and Bazwaya flocks and from the skin of slaughtered in Mosul abattoirs for the period from October 2020 to March 2021. Morphological identification by using stereomicroscope depending on patterns of spinulation of the 10th abdominal segment and peritremes structure of L3 classified as H. bovis and H. lineatum. Molecular technique by traditional PCR applied on 16 L3 of the genus Hypoderma revealed that the reaction product was 500 bp by amplification of mt CO1 gene while the results of PCR-RFLP using restriction TaqI enzyme for differentiation between the two species indicated reaction products 300bp for H. bovis and 200bp for H. lineatum respectively. The results of molecular analysis by PCR and PCR-RFLP proved the existence of these two species of Hypoderma in Mosul.
Keywords: Cattle, PCR-RFLP, warble, Hypoderma bovis, Hypoderma lineatum
التشخیص الشکلی والجزیئی لأنواع طفیلی Hypoderma spp. فی مدینة الموصل، العراق
دعاء غانم الحمدانی و نادیة سلطان الحیالی
فرع الأحیاء المجهریة، کلیة الطب البیطری، جامعة الموصل، الموصل، العراق
الخلاصة
داء النغف الجلدی هو من الأمراض الطفیلیة الخارجیة التی تخمج الأبقار. یحدث بسبب النوع Hypoderma bovis والنوعHypoderma lineatum من أکثر الأنواع شیوعا لهذا النغف. فی هذه الدراسة تم جمع 78 یرقات من الحیوانات المصابة بطریقة استخراجها من التورمات الموجودة فیها ومن المستشفى التعلیمی البیطری التعلیمی ومن قطعان مختلفة فی مناطق کوکجلی وبازوایا وکذلک من مجزرة الموصل وخلال الفترة من بدایة تشرین الأول 2020 ولغایة نهایة آذار 2021. تمت الدراسة الشکلیة وباستخدام المجهر التشریحی بالاعتماد على نمط وجود أو عدم وجود الأشواک فی القطعة العاشرة و على ترکیب الصفائح التنفسیة حیث تم تصنیف الیرقات الثالثة للنوع H. bovisوH. lineatum . کما أثبتت نتائج التقنیة الجزیئیة التقلیدیة التی طبقت على 16 یرقة ثالثة أن ناتج تفاعل التضخیم للجین mt CO1کان 500bp بینما نتائج استخدام تقنیة PCR-RFLP بواسطة الإنزیم القاطع TaqI لغرض التفریق بین النوعین أکدت وجود H. bovis و H. lineatumوبواقع ناتج تفاعلی 300 و 200 زوجا قاعدیا وعلى التوالی. أثبتت نتائج الدراسة باستخدام التقنیة الجزیئیة وجود النوعین لطفیلی Hypoderma فی مدینة الموصل.
Introduction
Cattle are exposed to different ecto-parasites as ticks (1) and endo-parasites as blood protozoa (2), tissue protozoa such as Neospora caninum and Toxoplasma gondii (3,4) infections. One of the most common ectoparasitic infestation is cattle grub also known as cattle hypodermosis resulted from larvae of H. bovis, and H. lineatum (5). The warble fly infestation (WFI) or Hypodermosis, causes warbles in the subcutaneous of infested animals which considered the distinctive feature for this disease, this myasis is present worldwide and has negative effects on cattle production (5,6). H. bovis and H. lineatum mainly affect bovine, horses and human (7). The discrimination morphologically between the two species H. bovis and H. lineatum based on peritreme structure and on the order of spinulation located on the tenth segment of larvae 3 (8,9). Recently, the cytochrome oxidase subunit 1 gene of the mitochondrial DNA (CO1-mtDNA) considered as the best gene used in molecular detection and molecular phylogenetic analysis (5). Furthermore, molecular analysis by this gene is ideal for identifying 5 species of Hypoderma: H. bovis, H. lineatum, H. diana, H. tarandi, and H. actaeon (10). Hypoderma spp. in Pakistan and Turkey were identified through CO1 mtDNA sequence analysis and PCR-RFLP (11,12). It is essential for accurate identification between H. bovis and H. lineatum for proper treatment of the infested cattle, the discrimination of H. bovis from H. lineatum is significant because complications could occur during the use of drugs during migration of L1 which cause paralysis with H. bovis while esophagitis occur with H. lineatum (13). The aim of this research is essentially using morphological and molecular differentiation between Hypoderma spp. in naturally infested bovine in Mosul city by morphological features and PCR-RFLP technique of gene CO1.
Materials and methods
Larvae collection
From October 2020 to March 2021, Hypoderma spp. Larvae 3 (L3) samples were collected by extraction from the back of naturally infested cattle coming to the Veterinary Hospital, from different flocks and from the skin of slaughtered cattle in Mosul city. The samples were washed in phosphate saline buffer several times and identified depending on morphological description such as shape, color, size and spinulation of the tenth segment as well as morphology of L3 spiracular plates under steromicroscope (8-10,14) and then were preserved in ethanol 70% for PCR analysis.
Extraction of DNA
DNA extraction done using tissue kit type Geneaid UKAS after drying the samples from 16 L3 of Hypoderma spp. following the manufacturer’s instructions. Measuring the concentration and purification of DNA using biodrop instrument in the molecular laboratory of the Department of Biology, College of Sciences, Mosul University; by adding 1µl of DNA extracted from larvae samples and loaded into wells A260nm/ A280nm, DNA concentrations of all samples ranged between 50-150 ng/ µl and purification between 1.4 -1.7. Electrophoresis is processed on DNA samples extracted from larvae in 1% of agarose gel (Jena Bioscience, Germany).
Polymerase Chain Reaction (PCR)
Concentration of all DNA extracted was controlled by diluting TE buffer to obtain the required concentration and it was 25 ng/ µl according to the following equation C1XV1=C2V2. The region of (COX1-mtDNA) amplified by using primer as used by (12) and then prepared the primer used in the PCR reaction supplied by Alpha DNA Montreal, Quebec H3C 0J7 as shown on (Table 1). Prepared DNA Master Reaction mixture. DNA reaction mixture was prepared according to the following (Table 2).
Table 1: Primer of Alpha DNA (12)
Primer |
Primer sequences ( 5’-3’) |
bp |
Hyp F |
TACAGTTGGAATAGACGTTGATAC |
500 |
Hyp R |
TCCAATGCACTAATCTGCCATATTA |
Table 2: DNA reaction mixture
Contents |
Total size (µl) |
Master Mix 2X |
10 |
DNA Template |
4 |
Forward Primer |
1 |
Reverse Primer |
1 |
Distal water (deionized) |
4 |
The negative control PCR sample contains all mixtures except DNA extracted from larvae samples. All tubes were centrifuged using microfuge with high speed 3-5 seconds to complete contents reaction mixture. Tube samples should be refrigerated during procedures. Reaction sample tubes were loaded into the thermocycler to perform the amplification reaction using the special program for each reaction as shown on (Table 3).
Table 3: Cycling conditions of PCR for amplification of Hypoderma spp
N |
Stage |
ºC |
Time (m) |
n cycle |
1 |
initial denaturation |
95 |
5 |
1 |
2 |
denaturation |
95 |
0.45 |
40 |
3 |
annealing |
60 |
1.30 |
|
4 |
extension |
72 |
2 |
|
5 |
final extension |
72 |
7 |
1 |
6 |
cooling |
4 |
4 |
1 |
After the end of the reaction, 5 µl samples of each PCR tubes were loaded in the agarose wells 1% adding Ladder DNA (Biolaps) in one of the wells. Then samples were moved to electrophoresis with 50 volts 60-70 min. The get was put in the ultraviolet instrument to see the dyed bands and to notice the amplification bands then photocopied using digital camera. Base pairs sizes were estimated according to bands locations by comparing them with DNA Ladder.
PCR-RFLP technique
5 µl PCR product is taken and added to it 0.5 µl of Restriction endonuclease enzyme Taq I the incubated at 37°C for 3h, then separated the restriction fragments agarose gel 1%, finally stained by red safe and photographed.
Results
Third larvae of genus Hypoderma were classified morphologically by microscopic examination using stereomicroscope, identified L3 H. lineatum and L3 H. bovis (Table 4; Figure 1) show the presence or absence of dorsal spines on 10th abdominal segment as a distinctive feature in differentiating between the two species (Figure 2) illustrates the absence of dorsal spines in the 10th abdominal segment of H. bovis. The structure of the posterior peritreme in H. bovis is longer and narrower than H. lineatum which is considered another distinctive and reliable feature in distinguishing between the two species (Figures 3). The molecular discrimination using PCR technique by amplification of mt-CO1 gene of 16 larvae 3 of the genus Hypoderma revealed that the reaction product was 500 bp (Figure 4) whereas the results of molecular analyses using PCR-RFLP revealed 200 bp and 300 pb, bands of RFLP profile revealed 1,3,4,7 of H. lineatum and 2,5,8 of H. bovis respectively (Figure 5).
Table 4: Distinctive features of 10th of abdominal segment of L3of Hypoderma species
Species |
Dorsal spines, tenth abdominal segment |
H. bovis |
Spines absent |
H. lineatum |
Spines present |
Figure 1: Larvae 3 of H. bovis (A. ventral, B. dorsal) under stereomicroscope 2.5x.
Figure 2: A- Shows absence or B- Presence of dorsal spines in the 10th abdominal segment of H. bovis. under stereomicroscope 2.5x.
Figure 3: posterior peritreme (a. Hypoderma bovis, b. Hypoderma lineatum) under stereomicroscope 10x.
Figure 4: PCR Electrophoresis, CO1 mtDNA amplification carried out using specific primer: M: DNA marker 50bp 1, 2, 3, 4, 5, 7, 8 samples of L3 of Hypoderma spp. Positive 500bp, sample 6 Negative. N represents negative control.
Figure 5: PCR-RFLP product digested with TaqI enzyme. M: DNA marker 50bp. 1,3,4,7 (200bp) H. lineatum, 2,5,8 (300bp) H. bovis.
Discussion
The most important species cause hypodermosis in cattle are H. bovis, and H. lineatum (15). In this study morphological and molecular methods were applied to identify L3 Hypoderma species. Our results revealed that morphological identification L3 of both species is considered difficult because of debris and remains of the host cell, blood and puss covering and attaching the larvae make it difficult to recognize the spinulation pattern of the 10th abdominal segment even with ethanol preservation; furthermore, extraction of L3 could damage the peritremes which is also another important feature this was in conformity with Balkaya et al., (11) who also added more reasons including: Hypoderma spp. share the same host on the back of infested cattle, variation between larvae samples collected from hosts and countries, the absence of recent unified morphological keys and finally dark or brown chitinous color of L3 make it uneasy to diagnose peritremes shapes which is considered as a distinctive feature for identification between species.
Since it was not reliable to identify morphologically between H. bovis, and H. lineatum, so current study highlighted usefulness and significance of molecular technique for accurate discrimination and confirmation between the two species in cattle especially when similar species parasitize in the same host and also considered a good tool for the study of the biology of the myasis specially in immature stages (5,11,16,17). The molecular identification by the PCR-RFLP and nucleotides sequences of the most variable region of gene CO1 mtDNA presented important data in the identification of Hypoderma species in China (17) in East Turkey (11) and in Portugal (18,19). and also used as goal gene in several molecular and phylogenetic researches for L3 (20).
The results of PCR-RFLP assay in this study by TaqI restriction enzyme allowed to differentiate between the species by CO1 amplicons and that the size of amplification of bands is 200 bp of H. lineatum while 300 bp for H. bovis. The Taq1 restriction enzyme is used to discriminate between H. bovis and H. lineatum on 438, and 250 bp bands for H. bovis and 488 and 200 bp for H. lineatum (17) and used BfaI and HinfI enzymes couldn’t digest H. bovis and H. lineatum. The aim of differentiation between Hypoderma species is essential to accurately treat infected animals on proper time; furthermore, these species have different migrating patterns thus it is a major threat in drug administration when L1 of H. bovis presence causes paralysis in the hindquarter and L1 of H. lineatum causes blot the esophagus (21,22)
Conclusion
This study concluded the morphological and molecular identification of Hypoderma bovis and Hypoderma lineatum depending on morphological characterization of L3 and by PCR-RFLP to confirm the existence of both species in Iraq, Mosul. The results of this research revealed that morphological differentiation is not sufficient for differentiation and difficult due to the fact that L3 of both species share the same host and localities in the back of the infested cattle. Using molecular analysis proved the existence of both species and it is very important in treatment because of the different migration patterns of L1 of both species.
Acknowledgement
The researchers would like to express their sincere gratitude to the Dean of College of Veterinary Medicine, University of Mosul and to staff of Department of Microbiology for their efforts and support to complete this research.
Conflict of interests
Researchers declare that they have no conflicts in interest regarding the publication of this research.