Meta-analysis of Johne's disease in the Iranian animal population (1999-2020).

Johne's disease (JD) affects domestic and wild animals across the globe. Paratuberculosis exerts huge economic impacts on the animal industry. Despite significant economic losses, little knowledge is available on the epidemiological status of Paratuberculosis in the animal population of Iran. The present study aimed to evaluate the prevalence rate of this disease in the Iranian animal population with confidence interval (CI) and p-value. The search was conducted on and screened the electronic international and national databases. Thereafter, sufficient and relevant data were extracted. Data were analyzed in STATA software (version 14). Prevalence disease rates were determined using random effect models. A total of 52 articles were included in the systematic review. According to the results, the overall disease incidence rate in Iran was 20.39%. The prevalence rate of JD was 22.33% (95% CI, 18.87-25.78) in the cattle population and 25.61% (95% CI, 21.43-29.78) in sheep. This study pinpointed that cattle and sheep were the most commonly infected hosts. The highest prevalence rate of disease was 35.88% in Tehran (95% CI, 16.77-54.99), followed by 32.86% (95% CI, 25.07-40.65), and 20.10% (95% CI, 14.63-25.58) in Khorasan Razavi and Kerman, respectively. The lowest prevalence rate of JD was 2.27% in Ilam (95% CI, 0.84-3.70). Based on this result, molecular-based methods were properly compared to other diagnostic methods. This study reported Mycobacterium avium subsp. paratuberculosis (MAP) prevalence in dairy herds in the provinces of Iran. The infection transmission from animal sources to humans and the potential role of MAP in human disease highlight a critical need for further study on this issue.

Perioperative Considerations for the Surgical Treatment of Crohn's Disease with Discussion on Surgical Antibiotics Practices and Impact on the Gut Microbiome.

Crohn's disease, a chronic inflammatory process of the gastrointestinal tract defined by flares and periods of remission, is increasing in incidence. Despite advances in multimodal medical therapy, disease progression often necessitates multiple operations with high morbidity. The inability to treat Crohn's disease successfully is likely in part because the etiopathogenesis is not completely understood; however, recent research suggests the gut microbiome plays a critical role. How traditional perioperative management, including bowel preparation and preoperative antibiotics, further changes the microbiome and affects outcomes is not well described, especially in Crohn's patients, who are unique given their immunosuppression and baseline dysbiosis. This paper aims to outline current knowledge regarding perioperative management of Crohn's disease, the evolving role of gut dysbiosis, and how the microbiome can guide perioperative considerations with special attention to perioperative antibiotics as well as treatment of Mycobacterium avium subspecies paratuberculosis. In conclusion, dysbiosis is common in Crohn's patients and may be exacerbated by malnutrition, steroids, narcotic use, diarrhea, and perioperative antibiotics. Dysbiosis is also a major risk factor for anastomotic leak, and special consideration should be given to limiting factors that further perturb the gut microbiota in the perioperative period.

Comparative Study of Mycobacterium bovis and Mycobacterium avium subsp. paratuberculosis In Vitro Infection in Bovine Bone Marrow Derived Macrophages: Preliminary Results.

Bovine tuberculosis and paratuberculosis are endemic in many areas worldwide. This work aims to study cytokines production and gene expression profiles of bovine macrophages infected with Mycobacterium bovis and Mycobacterium paratuberculosis subsp. avium (MAP) strains to identify potential diagnostic biomarkers. Bovine bone marrow stem cells were differentiated into macrophages and subsequently infected in vitro with different spoligotypes of M. bovis and MAP field strains (as single infections and coinfections), using different multiplicity of infection. Supernatant and cell pellets were collected 24 h, 48 h, and one week post-infection. Preliminarily, gene expression on cell pellets of IL-1ß, IL-2, INFγ, IL-6, IL-10, IL-12, and TNFα was assessed by qRT-PCR one week p.i. Subsequently, IL-1ß and IL-6 were measured by ELISA and qRT-PCR to investigated their production retrospectively 24 h and 48 h p.i. A variability in macrophages response related to the concentration of mycobacteria, the coinfection with MAP, and M. bovis spoligotypes was identified. An early and constant IL-6 increase was observed in the M. bovis infection. A lower increase in IL-1ß was also detected at the highest concentration of the two M. bovis spoligotypes one week post-infection. IL-6 and IL-1 ß production was reduced and differently expressed in the MAP infection. IL-6 appeared to be the earliest cytokines produced by bovine macrophages infected with M. bovis.

Crystal structure and biophysical characterization of IspD from Burkholderia thailandensis and Mycobacterium paratuberculosis.

The methylerythritol phosphate (MEP) pathway is a metabolic pathway that produces the isoprenoids isopentyl pyrophosphate and dimethylallyl pyrophosphate. Notably, the MEP pathway is present in bacteria and not in mammals, which makes the enzymes of the MEP pathway attractive targets for discovering new anti-infective agents due to the reduced chances of off-target interactions leading to side effects. There are seven enzymes in the MEP pathway, the third of which is IspD. Two crystal structures of Burkholderia thailandensis IspD (BtIspD) were determined: an apo structure and that of a complex with cytidine triphosphate (CTP). Comparison of the CTP-bound BtIspD structure with the apo structure revealed that CTP binding stabilizes the loop composed of residues 13-19. The apo structure of Mycobacterium paratuberculosis IspD (MpIspD) is also reported. The melting temperatures of MpIspD and BtIspD were evaluated by circular dichroism. The moderate Tm values suggest that a thermal shift assay may be feasible for future inhibitor screening. Finally, the binding affinity of CTP for BtIspD was evaluated by isothermal titration calorimetry. These structural and biophysical data will aid in the discovery of IspD inhibitors.

Mycobacterium avium ssp. paratuberculosis and Crohn's Disease-Diagnostic Microbiological Investigations Can Inform New Therapeutic Approaches.

Mycobacterium avium ssp. paratuberculosis (MAP) is the cause of Johne's disease (JD), which is a chronic infectious gastrointestinal disease of ruminants and is often fatal. In humans, MAP has been associated with Crohn's disease (CD) for over a century, without conclusive evidence of pathogenicity. Numerous researchers have contributed to the subject, but there is still a need for evidence of the causation of CD by MAP. An infectious aetiology in CD that is attributable to MAP can only be proven by bacteriological investigations. There is an urgency in resolving this question due to the rising global incidence rates of CD. Recent papers have indicated the "therapeutic ceiling" may be close in the development of new biologics. Clinical trial outcomes have demonstrated mild or inconsistent improvements in therapeutic interventions over the last decades when compared with placebo. The necessity to revisit therapeutic options for CD is becoming more urgent and a renewed focus on causation is essential for progress in identifying new treatment options. This manuscript discusses newer interventions, such as vaccination, FMT, dietary remediation and gut microbiome regulation, that will become more relevant as existing therapeutic options expire. Revisiting the MAP theory as a potential infectious cause of CD, rather than the prevailing concept of an "aberrant immune response" will require expanding the current therapeutic programme to include potential new alternatives, and combinations of existing treatments. To advance research on MAP in humans, it is essential for microbiologists and medical scientists to microscopically detect CWDM and to biologically amplify the growth by directed culture.

Improved DNA Amplification of the Hallmark IS900 Element in Mycobacterium avium subsp. paratuberculosis: a Reexamination Based on Whole-Genome Sequence Analysis.

Amplification of the IS900 multicopy element is a hallmark nucleic acid-based diagnostic test for Mycobacterium avium subsp. paratuberculosis, which causes Johne's disease in ruminants. This assay is frequently used to determine the presence of the bacterium in feces of infected cattle and sheep. Two IS900 primer sets developed in the 1990s were widely used for decades, and their use has continued in current studies. However, these primers were developed prior to the availability of complete genome sequences. Recent sequence analysis of the binding locations for one primer pair (P90/P91) identified errors and binding inefficiencies that can be easily corrected to further increase detection sensitivity. The P90 primer is missing two nucleotides that should be present near the 3' end, and it does not bind all copies of IS900 due to 5' deletions at some IS900 loci. These IS900 primer pairs, along with newly developed primers, were tested by real-time PCR on purified genomic DNA to determine which primer set performed the best and how primer design errors affect amplification efficiencies. The newly designed PCR primer set (JB5) showed increased sensitivity by two to three quantification cycles using purified genomic DNA and was similar in efficiency to 150C/921. These tests were extended using DNA from feces and tissues of infected cows, which showed similar results. Finally, a 167-bp partial duplication of IS900 was found in type I strains. Although P90 and P91 primers successfully amplify M. avium subsp. paratuberculosis DNA, their use should be discontinued in favor of more efficient primer pairs in future studies. IMPORTANCE This study is an example of how applied genomic analysis can aid diagnostic test improvements. Detection of Mycobacterium avium subsp. paratuberculosis infection of livestock prior to the appearance of clinical disease signs is very difficult but essential for identifying animals shedding the bacterium to prevent transmission of Johne's disease. Total M. avium subsp. paratuberculosis quantity in the feces as determined by real-time PCR (qPCR) using the IS900 target indicates bacterial shedding status and potential for transmission of the pathogen. However, legacy primers designed prior to the availability of complete genome sequences that are used in these tests to detect M. avium subsp. paratuberculosis were based on data from only a single copy of IS900 and not considering all copies collectively as a group. This approach resulted in primer design errors which can be easily corrected to improve test sensitivities. We tested original primers that contain these errors and their corrected versions by qPCR and showed improved sensitivity on purified genomic DNA as well as fecal and tissue samples. These findings may help detect the organism from environmental samples on farms where sensitivity is currently lacking.

HERV-K Envelope Protein Induces Long-Lasting Production of Autoantibodies in T1DM Patients at Onset in Comparison to ZNT8 Autoantibodies.

Human endogenous retroviruses (HERVs) have been thought of as silent passengers within our genomes, but their reactivation has been linked with several autoimmune diseases, including type 1 diabetes (T1DM). In order to evaluate the potential role of HERVs, in addition to the recognized role of HERV-W, we focused on the debated role of the HERV-K family in T1DM. Therefore, we performed a serological evaluation of IgG antibodies against HERV-K Env epitope (HERV-K Env19−37) in comparison to an important ß-cellular autoimmunity biomarker, ZnT8, from plasma samples of Sardinian children at the onset of T1DM, different T1DM groups (1−5 and 6−12 years since diagnosis), and healthy controls (HCs), by an indirect enzyme-linked immunosorbent assay (ELISA). A significant antibody response was observed against HERV-K Env19−37 (p < 0.0001) in T1DM patients compared to HCs, and significantly higher IgG responses were detected in the group at the onset compared to the other T1DM groups and HCs. Unlike the trend of the ß-cellular autoimmunity autoantibodies, for HERV-K Env antibodies we observed positive values that persist over time up to 5 years since the onset of T1DM. Our results add new evidence about the presence of antibodies against HERV-K in T1DM, but further investigations are necessary to relate these results with the established role of HERVs, considering the contrasting results for HERV-K.

The Development of 3D Bovine Intestinal Organoid Derived Models to Investigate Mycobacterium Avium ssp Paratuberculosis Pathogenesis.

Mycobacterium avium subspecies paratuberculosis (MAP) is the etiological agent of Johne's Disease, a chronic enteritis of ruminants prevalent across the world. It is estimated that approximately 50% of UK dairy herds are infected with MAP, but this is likely an underestimate of the true prevalence. Infection can result in reduced milk yield, infertility and premature culling of the animal, leading to significant losses to the farming economy and negatively affecting animal welfare. Understanding the initial interaction between MAP and the host is critical to develop improved diagnostic tools and novel vaccines. Here we describe the characterisation of three different multicellular in vitro models derived from bovine intestinal tissue, and their use for the study of cellular interactions with MAP. In addition to the previously described basal-out 3D bovine enteroids, we have established viable 2D monolayers and 3D apical-out organoids. The apical-out enteroids differ from previously described bovine enteroids as the apical surface is exposed on the exterior surface of the 3D structure, enabling study of host-pathogen interactions at the epithelial surface without the need for microinjection. We have characterised the cell types present in each model system using RT-qPCR to detect predicted cell type-specific gene expression, and confocal microscopy for cell type-specific protein expression. Each model contained the cells present in the original bovine intestinal tissue, confirming they were representative of the bovine gut. Exposure of the three model systems to the K10 reference strain of MAP K10, and a recent Scottish isolate referred to as C49, led to the observation of intracellular bacteria by confocal microscopy. Enumeration of the bacteria by quantification of genome copy number, indicated that K10 was less invasive than C49 at early time points in infection in all model systems. This study shows that bovine enteroid-based models are permissive to infection with MAP and that these models may be useful in investigating early stages of MAP pathogenesis in a physiologically relevant in vitro system, whilst reducing the use of animals in scientific research. Bos taurus: urn:lsid:zoobank.org:act:4C90C4FA-6296-4972-BE6A-5EF578677D64.

Evaluation of using comparative intradermal tuberculin test to diagnose bovine tuberculosis in dairy cattle in Taiwan.

The National Bovine Tuberculosis (bTB) Eradication Program for dairy cattle has been operating in Taiwan for many years and has allowed the prevalence of bTB to decrease gradually. However, 29% of intradermal tuberculin test (ITT)-positive dairy cows were later found to be TB negative based on necropsy, histopathological examination, and mycobacterial isolation results. Studies in Taiwan have indicated that Mycobacterium avium subsp. paratuberculosis (MAP) may lead to false-positive ITT. Due to the high prevalence (over 90%) of paratuberculosis (PTB) serum antibody among Taiwan's farms, comparative ITT (CITT) has been recommended to differentiate between bTB and PTB infections. In this study, we used ITT, CITT, and enzyme-linked immunosorbent assay (ELISA) to evaluate the prevalence of bTB from 2012 to 2018. We also used pathological and bacterial examination from ITT-positive dairy cows to evaluate CITT's diagnostic ability and adjust its cutoff point accordingly. After careful selection, 36 cows (including 31 cows from 11 ITT-positive farms and 5 from 2 ITT-negative farms) were examined by CITT. The cutoff point was adjusted using a receiver operating characteristic (ROC) analysis. Overall, our results identified the ITT-positive prevalence in Taiwan as 0.03-0.22%, and PTB-positive prevalence as 54.55-73.53%. The results of sensitivity, specificity, kappa, and ROC analyses have identified the optimal cutoff point for the CITT in Taiwan as ≥ 3 mm. At this cutoff point value, the sensitivity and specificity were 62.5% and 96.43%, respectively. Our findings can be used to reduce the false-positive response rate caused by PTB cross-reaction and accelerate the eradication of bTB in Taiwan.

HERV-W and Mycobacteriumavium subspecies paratuberculosis Are at Play in Pediatric Patients at Onset of Type 1 Diabetes.

The etiology of T1D remains unknown, although a variety of etiological agents have been proposed as potential candidates to trigger autoimmunity in susceptible individuals. Emerging evidence has indicated that endogenous human retrovirus (HERV) may play a role in the disease etiopathogenesis; although several epigenetic mechanisms keep most HERVs silenced, environmental stimuli such as infections may contribute to the transcriptional reactivation of HERV-Wand thus promote pathological conditions. Previous studies have indicated that also Mycobacterium avium subspecies paratuberculosis (MAP) could be a potential risk factor for T1D, particularly in the Sardinian population. In the present study, the humoral response against HERV-W envelope and MAP-derived peptides was analyzed to investigate their potential role in T1D etiopathogenesis, in a Sardinian population at T1D onset (n = 26), T1D (45) and an age-matched healthy population (n = 45). For the first time, a high serum-prevalence of anti-Map and anti-HERV-W Abs was observed in pediatric patients at onset of T1D compared to T1D patients and healthy controls. Our results support the hypothesis that external infections and internal reactivations are involved in the etiology of T1D, and that HERV-W activation may be induced by infectious agents such as MAP.