Humoral and cellular immune response to a crude exo-antigen and purified keratinase of Microsporum canis in experimentally infected guinea pigs

Mignon, Bernard; Leclipteux, T.; Focant, Charles; Nikkels, Arjen; Pierard, Gérald; Losson, Bertrand

doi:10.1046/j.1365-280x.1999.00204.x

Cited by 18 publications

(37 citation statements)

References 20 publications

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“…Ten µg of SC (100 µL) were injected intradermally at two sites on the flanks of animals. Both a negative (100 µL of liquid Sab medium) and a positive control consisting of 10 µg/100µL of a M. canis antigen known to induce DTH in immune guinea pigs (Mignon et al, 1999) were also performed. The skin thickness was measured before and 24 h after injection with a micrometre gauge (Kulche Coppieters, Brussels, Belgium) and the mean relative increases in skin thickness were determined.…”

Section: Dth Testmentioning

confidence: 99%

“…In groups 1 and 2, blood samples (250 µL) were collected from the saphenous vein on days (Mignon et al, 1999) and the positive reference was serum from the same guinea pig collected 14 days after infection. Optical density was defined as the difference between the mean absorbance for each triplicate serum sample tested and the control wells.…”

Section: Antibody Responsementioning

confidence: 99%

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Assessment of immunogenicity and protective efficacy of Microsporum canis secreted components coupled to monophosphoryl lipid-A adjuvant in a vaccine study using guinea pigs

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Băguţ

Heinen

et al. 2015

Veterinary Microbiology

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Microsporum canis is the most common dermatophyte in pets and is of zoonotic importance but currently there is no effective vaccine available to prevent dermatophytosis. The aim of this work was to assess the immunogenicity and protective efficacy of secreted components (SC) from M. canis adjuvanted with the monophosphoryl lipid-A (MPLA), in a vaccine study using the guinea pig as an experimental model. Animals were vaccinated with either the SC adjuvanted with the MPLA, the MPLA adjuvant alone or PBS three times at two-week intervals, until 42 days prior to M. canis infection. A blind evaluation of dermatophytosis symptoms development and fungal persistence in skin was monitored weekly. The antibody response towards the SC and the levels of Interferon (IFN)γ and Interleukin-4 expressed in peripheral blood mononuclear cells were assessed along or at the end of the study period respectively. The animals that received MPLA had a significantly lower clinical score than those inoculated with PBS. However, no significant difference was observed between the guinea pigs vaccinated with the SC adjuvanted with the MPLA and those having received MPLA alone. The results also showed that vaccination induced a strong antibody response towards the SC and an increase in IFNγ mRNA level. Our results show that the MPLA adjuvant used in this vaccine study can induce per se a partial protection against a M. canis infection. Although they induce a delayed-type hypersensitivity reaction in guinea pigs, the SC do not confer a protection under the present experimental conditions.

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Section: Dth Testmentioning

confidence: 99%

Section: Antibody Responsementioning

confidence: 99%

Assessment of immunogenicity and protective efficacy of Microsporum canis secreted components coupled to monophosphoryl lipid-A adjuvant in a vaccine study using guinea pigs

Cambier

Băguţ

Heinen

et al. 2015

Veterinary Microbiology

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“…Pathogen-free, two-month-old female guinea pigs (cross-bred white albinos, Dunkin Hartley strain, Charles River Laboratories) were infected with A. benhamiae by adapting a standard infection method that has been previously described for the dermatophyte M. canis (Mignon et al, 1999). Briefly, A. benhamiae mycelium scraped from freshly grown 18-day-old Sabouraud plates and suspended in a honey/PBS (1 : 2, v/v) mixture was applied on a 16 cm 2 back skin surface that had been previously clipped and scarified.…”

Section: P Staib and Othersmentioning

confidence: 99%

Differential gene expression in the pathogenic dermatophyte Arthroderma benhamiae in vitro versus during infection

et al. 2010

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Although dermatophytes are the most common agents of superficial mycoses in humans and animals, the molecular basis of the pathogenicity of these fungi is largely unknown. In vitro digestion of keratin by dermatophytes is associated with the secretion of multiple proteases, which are assumed to be responsible for their particular specialization to colonize and degrade keratinized host structures during infection. To investigate the role of individual secreted proteases in dermatophytosis, a guinea pig infection model was established for the zoophilic dermatophyte Arthroderma benhamiae, which causes highly inflammatory cutaneous infections in humans and rodents. By use of a cDNA microarray covering approximately 20-25 % of the A. benhamiae genome and containing sequences of at least 23 protease genes, we revealed a distinct in vivo protease gene expression profile in the fungal cells, which was surprisingly different from the pattern elicited during in vitro growth on keratin. Instead of the major in vitroexpressed proteases, others were activated specifically during infection. These enzymes are therefore suggested to fulfil important functions that are not exclusively associated with the degradation of keratin. Most notably, the gene encoding the serine protease subtilisin 6, which is a known major allergen in the related dermatophyte Trichophyton rubrum and putatively linked to host inflammation, was found to be the most strongly upregulated gene during infection. In addition, our approach identified other candidate pathogenicity-related factors in A. benhamiae, such as genes encoding key enzymes of the glyoxylate cycle and an opsin-related protein.Our work provides what we believe to be the first broad-scale gene expression profile in human pathogenic dermatophytes during infection, and points to putative virulence-associated mechanisms that make these micro-organisms the most successful aetiological agents of superficial mycoses.Abbreviations: FDR, false discovery rate; MFS, major facilitator superfamily; PAS, periodic acid Schiff; qRT-PCR, quantitative reverse-transcription PCR.

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“…In fact, most authors have only reported enzymatic activities of dermatophyte proteases on different macromolecular substrates and related their in vitro keratinolytic activity to the ability of dermatophytes to invade keratinized structures in vivo. In order to better understand the role of keratinases in M. canis pathogenicity, the assessment of their in vivo production is required.Despite the fact that the M. canis 31.5-kDa subtilisin-like protease was produced in vivo in naturally infected cats (28) and in experimentally infected guinea pigs (27), this protease does not appear as a major antigen in M. canis infection in these natural and experimental hosts (26,27). However, cellular and humoral immune responses to a crude M. canis exoantigen containing mainly the 31.5-and 43.5-kDa keratinases were demonstrated in both animals, suggesting that the 43.5-kDa metalloprotease could be a valuable candidate for further immunological studies, including vaccination trials.…”

mentioning

confidence: 99%

“…Although keratinases are supposed to be involved in dermatophyte pathogenicity, very few authors have assessed their in vivo production (21,27,28). Moreover, only one protease with keratinolytic activity, a recombinant T. rubrum protease, was characterized at the gene level (49).…”

mentioning

confidence: 99%

Secreted Metalloprotease Gene Family of Microsporum canis

et al. 2002

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Keratinolytic proteases secreted by dermatophytes are likely to be virulence-related factors. Microsporum canis, the main agent of dermatophytosis in dogs and cats, causes a zoonosis that is frequently reported. Using Aspergillus fumigatus metalloprotease genomic sequence (MEP) as a probe, three genes (MEP1, MEP2, and MEP3) were isolated from an M. canis genomic library. They presented a quite-high percentage of identity with both A. fumigatus MEP and Aspergillus oryzae neutral protease I genes. At the amino acid level, they all contained an HEXXH consensus sequence, confirming that these M. canis genes (MEP genes) encode a zinc-containing metalloprotease gene family. Furthermore, MEP3 was found to be the gene encoding a previously isolated M. canis 43.5-kDa keratinolytic metalloprotease, and was successfully expressed as an active recombinant enzyme in Pichia pastoris. Reverse transcriptase nested PCR performed on total RNA extracted from the hair of M. canis-infected guinea pigs showed that at least MEP2 and MEP3 are produced during the infection process. This is the first report describing the isolation of a gene family encoding potential virulencerelated factors in dermatophytes.Dermatophytes are fungi that have the ability to invade keratinized structures, such as the superficial cornified skin layers, hair, and nails, causing a superficial cutaneous infection called dermatophytosis (48). Microsporum canis is the main agent of dermatophytosis in dogs and cats (41) and causes a zoonosis that has increased in several European countries (23). Furthermore, this zoophilic dermatophyte is the most frequently isolated agent in human tinea capitis in Belgium (20) and in Italy (38). The cat, considered as the natural host and the main reservoir of M. canis, is the principal source of human contamination (41). In addition, the existence of feline asymptomatic infection and the lack of efficient immunoprophylaxis are responsible for the high frequency of endemic M. canis dermatophytosis in catteries (41). In this context, studies on vaccination prophylaxis are recommended by the World Health Organization and the International Society of Human and Animal Mycology (50).Pathophysiological mechanisms of dermatophytosis, including M. canis infection, are poorly understood. Among potential fungal virulence factors, attention has been paid to proteases for their potential role in the nutrition of the fungi (2), in tissue invasion (1), and in the control of host defense mechanisms (8, 13). Given the ability of dermatophytes to invade and to be essentially confined to keratinized structures, it can be assumed that keratinolytic proteases (keratinases) might be significant virulence factors. Therefore, the characterization of keratinases seems to be a major step for a better understanding of dermatophytic infection pathogenesis and subsequently of the host-fungus relationship. Some keratinases have been isolated from Trichophyton rubrum (1,3,19,25), Trichophyton mentagrophytes (46, 51, 52), and M. canis (5,22,29,42,43).Recent...

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Humoral and cellular immune response to a crude exo-antigen and purified keratinase of Microsporum canis in experimentally infected guinea pigs

Cited by 18 publications

References 20 publications

Assessment of immunogenicity and protective efficacy of Microsporum canis secreted components coupled to monophosphoryl lipid-A adjuvant in a vaccine study using guinea pigs

Assessment of immunogenicity and protective efficacy of Microsporum canis secreted components coupled to monophosphoryl lipid-A adjuvant in a vaccine study using guinea pigs

Differential gene expression in the pathogenic dermatophyte Arthroderma benhamiae in vitro versus during infection

Secreted Metalloprotease Gene Family of Microsporum canis

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