Françoise Maréchal

Secreted subtilisin Sub3 from Microsporum canis is required for adherence to but not for invasion of the epidermis.

Background  Microsporum canis is a pathogenic dermatophyte that causes a superficial cutaneous mycosis, mainly in cats and humans. Proteolytic enzymes, including subtilisins, have been postulated to be key factors involved in adherence and invasion of the stratum corneum and keratinized epidermal structures.

Failure of injectable ivermectin to control psoroptic mange in cattle

PSOROPTIC mange is a severe, debilitating skin condition affecting sheep, goats, rabbits, horses and cattle ([Soulsby 1982][1]). The causative mite, Psoroptes ovis , lives on the skin of the host, producing intense irritation ([Berriatua and others 2001][2]) that leads to marked economic losses and

Fungalysin and dipeptidyl-peptidase gene transcription in Microsporum canis strains isolated from symptomatic and asymptomatic cats

Microsporum canis is the main pathogenic fungus that causes a superficial cutaneous infection called dermatophytosis in domestic carnivores. In cats, M. canis causes symptomatic or asymptomatic infection. Recent conflicting data raise the question of whether the clinical status of the infected cat (symptomatic or asymptomatic) is directly correlated to the proteolytic activity of M. canis strains. Here, the transcription of fungalysin and dipeptidyl-peptidase genes (DPP) of M. canis was compared between four strains isolated from symptomatic and asymptomatic cats during the first steps of the infection process, namely in arthroconidia, during adherence of arthroconidia to corneocytes and during early invasion of the epidermis, using a new ex vivo model made of feline epidermis. There was no detectable transcription of the fungalysin genes in arthroconidia or during the first steps of the infection process for any of the tested strains, suggesting that these proteases play a role later in the infection process. Among DPP, the DPP IV gene was the most frequently transcribed both in arthroconidia and later during infection (adherence and invasion), but no significant differences were observed between M. canis strains isolated from symptomatic and asymptomatic cats. This study shows that the clinical aspect of M. canis feline dermatophytosis depends upon factors relating to the host rather than to the proteolytic activity of the infective fungal strain.

In vitro tests for evaluation of the hatchability of the eggs of Psoroptes mites following exposure to acaricidal compounds.

Abstract.  Three in vitro assays for the evaluation of the hatchability of the eggs of the mite Psoroptes ovis (Hering) (Acari: Psoroptidae) are described. Preliminary trials showed that hatching occurs at very high rates when eggs are incubated under conditions of high humidity, on a liquid medium and in agarose dishes. These three protocols were compared, taking into account the ease of preparation, follow‐up and accuracy of counting. The best protocol was found to be the use of agarose dishes. It was accurate, easy to carry out and reproducible for further evaluation of existing or potentially new compounds against both adults and eggs of Psoroptes spp. The acaricidal properties of phoxim and amitraz were then evaluated against eggs and adults using the three protocols. Results showed that for both drugs, in vitro adulticidal activity was complete, whereas the in vitro ovicidal activity was only partial. Nevertheless, efficacy of amitraz against both adults and eggs was shown to be higher than that of phoxim.

Dispersal capacity of Haematopota spp. and Stomoxys calcitrans using a mark-release-recapture approach in Belgium: Dispersal of biting flies in Belgium

The dispersion potential of mechanical vectors is an important factor in the dissemination of pathogens. A mark–release–recapture experiment was implemented using two groups (unfed and partially fed) of the Tabanidae (Diptera) (Haematopota spp.) and biting Muscidae (Diptera) (Stomoxys calcitrans) most frequently collected in Belgium in order to evaluate their dispersion potential. In total, 2104 specimens of Haematopota spp. were collected directly from horses and 5396 S. calcitrans were collected in a cattle farm using hand‐nets. Some of these insects were partially fed in vitro and all were subsequently coloured. Overall, 67 specimens of S. calcitrans (1.2%) and 17 of Haematopota spp. (0.8%) were recaptured directly on horses. Stomoxys calcitrans flew maximum distances of 150 m and 300 m when partially fed and unfed, respectively. Haematopota spp. travelled maximum distances of 100 m and 200 m when partially fed and unfed, respectively. Segregation measures seem essential in order to reduce the risk for pathogen transmission. A distance of 150 m appears to be the minimum required for segregation to avoid the risk for mechanical transmission, but in areas of higher vector density, this should probably be increased.