Investigation on eggshell apex abnormality (EAA) syndrome in France: isolation of Mycoplasma synoviae is frequently associated with Mycoplasma pullorum.

BACKGROUND: Mycoplasma synoviae (MS) is known to cause Eggshell Apex Abnormality (EAA) syndrome characterized by an altered shell surface with increased translucency on the apex. However, no large-scale studies have been conducted to obtain prevalence data of EAA and MS isolates associated to this syndrome. This manuscript reports the results of two field studies performed in the French poultry industry (2015-2017): focusing mainly on investigation of presence and prevalence of EAA in different types of laying hen flocks (phase 1), and isolation of MS strains from EAA-infected flocks (phase 2). RESULTS: The first survey included 77 farms of commercial layers in three French egg-production regions, hosting 40 flocks in alternative systems (ALT) and 56 in furnished cages (FC). Seven flocks (4 FC and 3 ALT) presented EAA clinical signs, giving a prevalence of 7.3% in this studied sample. A second independent field study was conducted to identify MS by in vitro cultivation and PCR in samples from 28 flocks with clinical signs of EAA. Different types of biological specimens were collected in EAA-affected flocks and submitted to the laboratory. M. synoviae was detected in 25/28 flocks, from both production systems (5/5 ALT and 20/23 FC). Detection of MS was significantly higher in tracheal swabs (59%) than in cloacal (10.5%), albumen (3.6%) and egg yolk (1.1%) swabs. It is worth to mention that attempts to clone MS from positive samples were often hampered by the presence of another Mycoplasma species, which showed fast growing behaviour in the selective media used in this study (Frey Medium 4 and Frey Medium 4 supplemented with erythromycin). The use of MALDI-TOF mass spectrometry in combination with next-generation sequencing (NGS) results allowed the identification of this fast growing mycoplasma as Mycoplasma pullorum, which was detected in 14 of the 25 (56%) MS-positive flocks. CONCLUSIONS: These results confirmed the presence of the EAA syndrome in MS-positive flocks of layers in France, reared in different regions and in different production systems (ALT and FC). Studies need to be conducted to test whether M. pullorum may influence the expression of clinical signs of EAA in MS-infected layer farms.

Investigation of Clostridium botulinum in commercial poultry farms in France between 2011 and 2013.

Between 2011 and 2013, 17 poultry botulism outbreaks were investigated in France. All cases were associated with Clostridium botulinum type C-D. Presence of C. botulinum was studied in seven areas: poultry house, changing room, ventilation system, surroundings, animal reservoirs, water, and feed. Swabs, litter, soil, darkling beetles, rodents and wild bird droppings, feed and water samples were collected. The presence of C. botulinum type C-D in the environment of affected flocks was detected in 39.5% of the 185 samples analysed by real-time polymerase chain reaction. C. botulinum type C-D was reported in each area. Four areas were more frequently contaminated, being found positive in more than one-half of farms: darkling beetles (9/11), poultry house (14/17), water (13/16) and surroundings (11/16). After cleaning and disinfection, the ventilation system and/or the soil (in the houses and the surroundings) returned positive results in four out of eight poultry farms. Consequently, darkling beetles, the drinking water, the ventilation system and the soil in the surroundings and the houses were identified as the main critical contaminated areas to consider in poultry farms to prevent recurrence of botulism outbreaks.

Lack of antigenic relationship between French and recent North American non-A/non-B turkey rhinotracheitis viruses.

Twelve turkey rhinotracheitis viruses (TRTVs) including the Colorado isolate and two French non-A/non-B viruses were serologically compared. Six enzyme-linked immunosorbent assay (ELISA) antigens derived from subgroup A, subgroup B, a French non-A/non-B, and the Colorado TRTVs were used. Virus neutralization (VN) tests were performed with four Ma-104-adapted viruses derived from subgroup A, subgroup B, a French non-A/non-B, and the Colorado viruses. French strains isolated since 1995 were assigned to subgroup B in both ELISA and VN, whereas those isolated in 1985 and 1986 appeared more diverse: two strains belonged to subgroup B, one to subgroup A, and two others appeared antigenically different from both the A and B subgroups and are classified as non-A/non-B. The Colorado strain appeared different from these three groups of TRTVs. Assignment to subgroup A or B was confirmed by reverse transcription-polymerase chain reaction, but neither the French non-A/non-B strains nor the Colorado virus could be classified with the subgroup-specific G-based primers. These results suggest that at least three antigenically different viruses were present in France in 1985-86 and that the Colorado strain is different from all European TRTVs. Further serologic and phylogenic studies will be necessary to evaluate their actual prevalences and relationships.

Comparison of F-, G- and N-based RT-PCR protocols with conventional virological procedures for the detection and typing of turkey rhinotracheitis virus.

Fifty-six reverse transcriptions followed by a polymerase chain reaction (RT-PCR) were developed and/or assessed to detect and to type turkey rhinotracheitis virus (TRTV). Twenty-seven primers corresponding to sequences either common to both A and B viruses, or type-specific were respectively defined in the fusion (F), attachment (G) and nucleocapsid (N) proteins genes. Only one N-based RT-PCR detected 21/21 TRTVs isolated in four countries since 1985. Molecular typing (RT-PCR) and antigenic typing (ELISA) showed that TRTV strains antigenically related either to the 3BOC18 (UK/85/1) or to the 86004 (Fr/86/1) viruses belonged to the A or B genomic type respectively. Neither typing approach allowed assignment of two 1985 French isolates (Fr/85/1 and Fr/85/2) to either type A or B, these strains might thus belong to a third type. RT-PCR assays on tracheal and nasal swabs sampled during experimental and field infections significantly outperformed concurrent virus isolation in tissue culture and ELISA: G- and N-based RT-PCRs detected more positive samples than conventional methods. Molecular and serological results were concordant and demonstrated that all the recent French field viruses belonged to type B. Thus, N- and G-based RT-PCR are respectively specific and sensitive tools for rapid diagnosis and typing of TRTV in field samples.

Evolution of the human immunodeficiency virus type 2 envelope gene in preimmunized and persistently infected rhesus macaques.

The V3 and V4 domains of human immunodeficiency virus type 2 (HIV-2) env genes from 14 rhesus macaques experimentally infected by HIV-2 SBL6669/H5 were sequenced. No variation was observed in viral sequences from sera and from uncultured peripheral blood mononuclear cells during primary infection. The first mutations were detected 17 months after infection; they mainly concerned the region between the V3 and V4 domains and not those domains themselves, which are known to be hypervariable, suggesting that variation of V3 is a late event of HIV infection.