Field investigation and phylogenetic characterization of orf virus (ORFV) circulating in small ruminants and Pseudocowpoxvirus (PCPV) in dromedary camels of eastern Sudan

Pathogenicity and phylogenetic analysis of ovine contagious ecthyma virus isolated during a sheeppox outbreak in Morocco

Contagious ecthyma (CE), also known as ORF is a highly contagious zoonotic viral skin disease that affects humans, sheep, goats and other domesticated and wild animals. As reported here-in, the objective of this study was to investigate a suspected outbreak of both sheeppox and ORF diseases in a sheep herd during the winter of 2020 in Northwest Morocco. The affected sheep showed nodules and proliferative scabby skin lesions around the mouth and hairless area of the body. Samples of skin crust were collected for virus identification and isolation. A virus was isolated in Vero cells, lamb testis and heart cells and the cytopathic effect was characterized by cells aggregation, ballooning, and detachment. Initially, the suspensions of skin crust were positive for sheeppox virus (SPPV) by PCR. Subsequent testing of the isolated virus from skin crust of affected animals indicated that the virus was SPPV-negative and ORFV-positive by PCR. Furthermore, nucleotide sequences of the B2L aligned with reference ORFV isolates for genetic analysis. Phylogenetic analyses results confirmed that the isolated virus was ORFV and that the virus was closely related to ORFV strains isolated in Sudan and Malaysia. In conclusion, this study is the first reported detection of ORFV in Morocco, and therefore, poses as an imminent threat to the health of humans, domestic and wild animals.

Detection and genetic characterization of orf virus from sheep and goats in Nigeria

Orf is a contagious, viral epitheliotropic disease of small ruminants. We investigated the molecular epidemiology of orf virus (ORFV) in breeds of small ruminants to determine the evolutionary diversity in Nigeria. Out of 54 small ruminants screened, the number of animals that were positive for ORFV in the three locations were 25. The distribution of positive animals by location were FCT 45.0% (n = 9/20), Oyo State 42.9% (6/14), and Plateau State 50.0% (n = 10/20). ORFV sequences from this study clustered with viruses detected in Taiwan, Iran, USA, and France. Our findings highlight the risk of transmission across geographic boundaries in Nigeria and West Africa, and reinforces the need for increased surveillance to prevent and control spread. Comprehensive characterization of ORFV in small ruminants as well as in humans in Nigeria is required to better elucidate the epidemiological dynamics and the virus evolution.

Zoonotic diseases transmitted from the camels

Background

Zoonotic diseases, infections transmitted naturally from animals to humans, pose a significant public health challenge worldwide. After MERS-CoV was discovered, interest in camels was raised as potential intermediate hosts for zoonotic viruses. Most published review studies pay little attention to case reports or zoonotic epidemics where there is epidemiological proof of transmission from camels to humans. Accordingly, any pathogen found in camels known to cause zoonotic disease in other animals or humans is reported.

Methods

Here, zoonotic diseases linked to camels are reviewed in the literature, focusing on those with epidemiological or molecular evidence of spreading from camels to humans. This review examines the risks posed by camel diseases to human health, emphasizing the need for knowledge and awareness in mitigating these risks.

Results

A search of the literature revealed that eight (36.4%) of the 22 investigations that offered convincing evidence of camel-to-human transmission involved MERS, five (22.7%) Brucellosis, four (18.2%) plague caused by Yersinia pestis, three (13.6%) camelpox, one (4.5%) hepatitis E, and one (4.5%) anthrax. The reporting of these zoonotic diseases has been steadily increasing, with the most recent period, from 2010 to the present, accounting for 59% of the reports. Additionally, camels have been associated with several other zoonotic diseases, including toxoplasmosis, Rift Valley fever, TB, Crimean-Congo hemorrhagic fever, and Q fever, despite having no evidence of a transmission event. Transmission of human zoonotic diseases primarily occurs through camel milk, meat, and direct or indirect contact with camels. The above-mentioned diseases were discussed to determine risks to human health.

Conclusion

MERS, Brucellosis, plague caused by Y. pestis, camelpox, hepatitis E, and anthrax are the main zoonotic diseases associated with human disease events or outbreaks. Transmission to humans primarily occurs through camel milk, meat, and direct contact with camels. There is a need for comprehensive surveillance, preventive measures, and public health interventions based on a one-health approach to mitigate the risks of zoonotic infections linked to camels.

Host range, severity and trans boundary transmission of Orf virus (ORFV)

Contagious ecthyma in small ruminants is a zoonotic disease caused by Orf virus (ORFV) in the genus Parapoxvirus that can be deadly to its natural hosts. It causes significant losses worldwide, and commonly infects humans. However, the literature about its comparative severity in sheep and goat hosts is misleading; and while contagious ecthyma has been shown to occur in camels and transmit to humans, there is confusion as to whether ORFV is responsible. Camels are important from a 'One Health' perspective as they have been implicated as a reservoir host for the virus causing Middle East Respiratory Syndrome (MERS), which has a case fatality rate of 35% in humans. We compared ORFV gene sequences and mortality data from the West Bank in Palestine, where ORFV has not been reported previously, with data from the region. Surprisingly, we found that infections of camels that had been attributed to ORFV were more closely related to a different member of the genus Parapoxvirus. Two Middle East ORFVs isolated from humans were unrelated and sat alongside sheep and goat derived sequences on two distinct ORFV lineages of a maximum likelihood B2L gene tree. One of the viral lineages bifurcated to produce a monophyletic group of goat-derived ORFVs characterized uniquely by a glycine at amino acid reside 249. We found that serine is the ancestral allele shared between ORFV infections of sheep and also two closely related Parapoxviruses (PCPV and CCEV), indicating that the glycine allele represents a more recent shift in virus host range adaptation to goats. Furthermore, and contrary to some reports that ORFV is more severe in goats than in sheep, we observed median mortality of up to 24.5% in sheep, but none in goats. We also identified trans-boundary spread of ORFV between the West Bank and Israel.

Identification, molecular characterization, and pathological features of orf virus in sheep and goats in Punjab province, Pakistan

Orf virus (ORFV) causes an acute, contagious, skin disease of sheep and goats which is economically important. The objectives of this study were to identify ORFV and to explore its pathological and phylogenetic profiles in 350 goats and 91 sheep of 14 districts of Punjab, Pakistan, from July 2020 to July 2021. Skin scrapings (total no. of samples = 441) of suspected animals were subjected to polymerase chain reactions, phylogenetic analysis, and pathological observations. The partial length of GIF/IL-2 gene (408 bp) was successfully amplified in 58/441 samples. Phylogenetic analysis of GIF/IL2 gene showed that the study isolates belonged to ORFV-cluster I, together with the viruses reported in India and China. Pakistan ORFV isolates were shared 97.6-98.7% nucleotide and 97.6-100% amino acid identities with the reference strain (NC_005336). Moreover, Chinese ORFV-isolates were detected unique multiple amino acid substitutions (F11L, Q21H, D27N, I46V, N49S, N82D, D103N, S129G) with study isolates. Naturally infected animals were anorexic, emaciated, dull, and depressed. The macroscopic lesions included multifocal to coalescing, ulceration followed by proliferative papules, pustules, and crust formation on the epidermis of gums, lips, mouth commissure, muzzles, nose, and udder. Histopathological examination revealed hyperplasia, anastomosing rete ridges formation and degenerative changes, including spongiosis and vacuolation of epidermal cells. Keratinocytes exhibited eosinophilic intracytoplasmic inclusion bodies with pyknotic and karyorrhexis nuclei. This is the first report on molecular characterization of ORFV from Pakistan, with insight into its pathogenesis and comparative analysis of pathological alterations and genetic diversity between ORFV strains reported in different geographical areas.

Assessment of Contagious Ecthyma Virus in Camels of Wasit Province, Iraq

Camel contagious ecthyma (CCE) is an infectious disease caused by the Paravox virus (PPV) of the family Poxviridae. Due to the importance of the camel breeding industry in tropical and subtropical regions, the present study aimed to isolate the causative agent of camel contagious ecthyma (CCE) using cell culture and molecular confirmation of virus isolate. A total of 210 camels aged 6 months to 4 years were selected from different districts in Wasit province (Iraq) from August 2017 to April 2019. These animals, which included 117 females and 93 males, displayed signs of papules, blisters, pustules, and scabs on the skin. To isolate the CCE virus, primary and secondary cell cultivation was performed using the lamb testis (LT) cells. The findings pointed out that there were cytopathic effects during the second passage of the virus, characterized by rounding and cells aggregation after 72 h. Furthermore, there were dramatic changes, including sloughing off and detachment from the surface of the monolayer, in monolayer cells after 48-72 h. The titration values of the isolated Orf virus in LT cells were obtained at 10^-5 TCI50 /0.05 and 10^-6 TCID 50 / 0.05 ml in the third and fourth passages, respectively. As expected, the B2L gene of affected camels was amplified from a skin biopsy DNA sample to produce nearly 594 base pairs. In conclusion, the results of the current study focused on epidemiological and virological characteristics of CCE in Wasit province; moreover, the virus was confirmed by a specific gene called the B2L gene.

The genetic identification of camel contagious ecthyma virus as the causative agent of contagious ecthyma in dromedary camels (Camelus dromedarius) in Qatar

Camel contagious ecthyma is a contagious viral disease of camels caused by either Orf virus (ORFV) or camel contagious ecthyma virus (CCEV). It has been previously reported and shown to cause economic losses in some camel-rearing countries in Asia and Africa, but has not been detected in Qatar. The purpose of this study was to identify and genetically characterize the contagious ecthyma causative agent in Qatari dromedary camels between 2017 and 2018. Accordingly, we made diagnoses of camel contagious ecthyma based on the clinical signs and genetic analysis of the entire major envelop protein (B2L) gene. The sequence analysis showed that CCEV was the infecting virus, and the B2L gene sequences were highly conserved between the locally infected camels with 100% similarity with isolates from Bahrain. This is the first study reporting the detection of CCEV in Qatar. We suggest that sequencing of the CCEV genome is necessary to determine the origin and relationship of this virus with other members of the parapoxvirus genus.

Molecular Insights into the Genetic Variability of ORF Virus in a Mediterranean Region (Sardinia, Italy)

Orf virus (ORFV) represents the causative agent of contagious ecthyma, clinically characterized by mild papular and pustular to severe proliferative lesions, mainly occurring in sheep and goats. In order to provide hints on the evolutionary history of this virus, we carried out a study aimed to assess the genetic variation of ORFV in Sardinia that hosts a large affected small ruminant population. We also found a high worldwide mutational viral evolutionary rate, which resulted, in turn, higher than the rate we detected for the strains isolated in Sardinia. In addition, a well-supported genetic divergence was found between the viral strains isolated from sheep and those from goats, but no relevant connection was evidenced between the severity of lesions produced by ORFV and specific polymorphic patterns in the two species of hosts. Such a finding suggests that ORFV infection-related lesions are not necessarily linked to the expression of one of the three genes here analyzed and could rather be the effect of the expression of other genes or rather represents a multifactorial character.

Molecular characterization and phylogenetic analysis of orf virus isolated from goats in Sokoto metropolis, Nigeria

Aim:

The aim of this study was to molecularly characterize orf virus isolated from clinical infections in goats in Sokoto metropolis.

Materials & methods:

Embryonated chicken eggs were used to isolate orf virus according to the established protocol. Viral DNA was extracted and full coding region of B2L gene was amplified by polymerase chain reaction, sequenced and blasted for identification and phylogenetically analyzed.

Results and discussion:

The B2L gene sequences of the isolate showed slight variability (96–98.7%) with the reference sequences as it clustered within the same clade with Korean, Zambian and Ethiopian strains, signifying a close genetic relationship. Unique amino acid substitutions were noted. This is the first genetic characterization of B2L gene of orf virus circulating in Nigeria.

Conclusion:

This study has provided in sight into the genetic diversity of orf virus in the study area.

Contagious ecthyma has for long been affecting the goat and sheep population in Nigeria leading to huge economic losses to livestock farmers through death and poor market value of the affected animals. Recently, increased death due to this disease has been reported in north-central Nigeria, but the nature of the disease-causing agent has not been reported yet. It is the aim of this study to understand the nature of the virus causing the disease in goats in Sokoto using molecular biology techniques so as to facilitate better vaccine design for the effective control of the disease in Nigeria.

First detection and molecular characterisation of pseudocowpox virus in a cattle herd in Zambia

BACKGROUND

Pseudocowpox virus (PCPV) of the genus Parapoxvirus in the family Poxviridae causes pseudocowpox in cattle worldwide and presents a zoonotic concern. Most poxviruses produce diseases of similar clinical signs in affected animals, which are impossible to differentiate clinically or by serology. It is, therefore, vital to use molecular assays to rapidly identify the causative agents of poxvirus infections. This study aimed to detect, diagnose, and characterize the causative agent of pox-like skin lesions in a cattle herd in Zambia, initially suspected to be infected with Lumpy Skin Disease virus.

METHODS

We used a High-Resolution Melting (HRM) analysis assay to detect the PCPV genome and sequenced the major envelope protein (B2L gene) for comparative sequence and phylogenetic analysis.

RESULTS

Our field investigations showed cattle presenting atypical skin lesions and high morbidity within the herd. The laboratory diagnosis, based on the HRM assay revealed PCPV DNA in the samples. Phylogenetic and comparative sequence analyses confirmed PCPV in the samples and revealed genomic differences between samples collected in 2017 and 2018 from the same farm.

CONCLUSION

Our work is the first documented report of PCPV in Zambia. It shows the strength of molecular methods to diagnose pox-like infections in cattle and discriminate between diseases causing similar clinical signs. This rapid and accurate diagnosis improves the response time for more accurate veterinary interventions.