Abstract:
The present invention relates to the preparation of universal inactivated vaccines and their use in preparing compositions for the prophylaxis and therapy of dermatomycosis. Vaccines according to the present invention have the advantage of conferring immunity against all important causes of dermatomycosis in animals and are characterized by stable immunogenic properties, easy preparation, high content of microconidia and lack of side reactions in animals.

Description:
RELATED APPLICATIONS  
       [0001]    The present application is a continuation of U.S. patent application Ser. No. 10/085,703, filed Feb. 8, 2002, which is a continuation of U.S. patent application Ser. No. 09/256,915, filed Feb. 24, 1999, which is a continuation of U.S. patent application Ser. No. 08/568,063, filed Dec. 6, 1995, now abandoned, which is a continuation of U.S. patent application Ser. No. 08/281,380, filed Jul. 26, 1994, now abandoned, which is a continuation of U.S. patent application Ser. No. 08/081,299, filed Aug. 11, 1993, now abandoned, which claims priority under 35 USC § 119 to Russian Federation application Serial No. 50068611307308, filed Oct. 21, 1991; and claims priority benefit of all the above-listed applications. 
     
    
     
       BACKGROUND  
         [0002]    This invention relates to the preparation of vaccines and their use in preparing compositions for specifically preventing and treating dermatomycosis.  
           [0003]    Dermatomycoses in animals are anthropozoonotic diseases of the skin and related tissue. Clinical symptoms are characterized by loss of hair in the affected area, hyperemia, scaling and asbestos-like scabs. Inflammation is often accompanied by suppuration. Dermatomycoses are often also characterized by localized infection of the skin.  
           [0004]    Dermatomycoses in animals carry a substantial socioeconomic impact. Diseased animals required prolonged treatment and can spread infection to both animals and humans.  
           [0005]    Up till now, dermatomycoses have been treated using various types of medication applied locally to affected areas of the skin. These included the ointments Yam, Yuglon (I) and a number of other ointments, liniments, solutions and other substances containing fungicides and fungistatic agents.  
           [0006]    The disadvantages of such treatments were:  
           [0007]    they were not very effective;  
           [0008]    they required the adoption of quarantine measures and disinfection of areas where animals were kept (rearing pens, vivaria, farms, zoos, circuses, etc.);  
           [0009]    they required substantial funds to be spent on drug preparations and veterinary treatment;  
           [0010]    they posed difficulties in immobilizing the animals (for wild animals held in captivity).  
           [0011]    Later vaccines were developed to treat trichophytosis in cattle (see USSR Patent No. 268593, 1970), fur-bearing animals and rabbits (see USSR Patent No. 835446, 1980), camels (see USSR Patent No. 1190574, 1985) and others.  
           [0012]    A vaccine had also been developed earlier for the prevention and treatment of trichophytosis in horses: S-P-I (see USSR Patent No. 548947, 1976).  
           [0013]    The S-P-I vaccine contains the vaccinal strain  Trichophyton equinum  No. 2251/71, deposited with the USSR All-Union State Scientific Control Institute of Veterinary Preparations, which is cultivated in agar/wort for 20-25 days at a temperature of 26-28° C. The fungal mass is then lifted from the surface of the nutrient medium, mixed with sterile distilled water and homogenized, and the concentration of cells is brought to 600-900 million per ml. The homogenate is transferred to a separate flask and stabilized with a mixture containing 2-8% gelatine (gelatose) and 10-40% sucrose in the ratio 1:1 (+25%), then lyophilized.  
           [0014]    For prophylactic and treatment purposes the vaccine is injected into the muscle tissue of the neck area of juvenile and mature horses in two doses of 1-2 cc, depending on the age of the horse, with an interval of 10-14 days. For therapeutic use the dosages were doubled.  
           [0015]    Vaccines obtained using this method have the disadvantage that they do not provide immunity against microsporiae and trichophytiae caused by other agents. It has also been noted that the areas where a live vaccine is injected may become a specific focus in which cultures of vaccinal strains may at certain times be produced. Given that some species of domestic animals come into frequent contact with humans, the occurrence of such specific foci in these animals is unacceptable.  
         DESCRIPTION  
         [0016]    This invention now provides universal inactivated vaccines for the specific treatment and prevention of dermatomycosis in animals and corresponding immunogenic fungal strains.  
           [0017]    This aim has been achieved by using the following fungal strains as vaccinal strains:  Trichophyton verrucosum  (especially No. VKPGF-931/410),  Trichophyton mentagrophytes  (especially No. VKPGF-930/1032),  Trichophyton equinum  (especially No. VKPGF-929/381),  Trichophyton sarkisovii  (especially No. VKPGF-551/68),  Microsporum canis  (especially No. VKPGF-928/1393),  Microsporum canis  var.  obesum  (especially No. VKPGF-727/1311),  Microsporum canis  var.  distortum  (especially No. VKPGF-728/120),  Microsporum gypseum  (especially No. VKPGF-729/59). Vaccines can be produced by using various combinations of antigenic material from the above strains together with a suitable carrier.  
           [0018]    A preferred combination consists of  Trichophyton verrucosum  No. VKPGF-931/410,  Trichophyton mentagrophytes  No. VKPGF-930/1032,  Trichophyton equinum  No. VKPGF-929/381,  Microsporum canis  No. VKPGF-928/1393,  Microsporum canis  var.  obesum  No. VKPGF-727/13 11,  Microsporum canis  var.  distortum  No. VKPGF-728/120,  Microsporum gypseum  No. VKPGF-729/59, particularly for use in dogs, cats and horses.  
           [0019]    Another preferred combination of vaccine strains consists of  Trichophyton verrucosum  No. VKPGF-931/410,  Trichophyton mentagrophytes  No. VKPGF-930/1032,  Trichophyton sarkisovii  No. VKPGF-551/68, particularly for use in cattle.  
           [0020]    The antigenic material may comprise a single antigen of at least one, and more particularly of all of the above-mentioned dermatophytes or from a plurality of antigens, provided that a sufficient immune response is stimulated to give resistance to a dermatophyte infection. Antigenic material for such a purpose can be prepared using methods known from the prior art, e.g., homogenizing the above-mentioned dermatophytes or parts thereof, fractionation of dermatophyte preparations, production of antigenic dermatophyte material by recombinant DNA technology, etc. It is preferable to use homogenized culture material having 4 to 120 million, preferably 90 million microconidia.  
           [0021]    Suitable physiologically acceptable carriers for administering the vaccines are known from the prior art and may include buffers, gels, microparticles, implantable solids, solutions and other adjuvants.  
           [0022]    To kill off the dermatophytes it is possible to use thiomersal (C 9 H 9 O 2 SNaHg), formaldehyde or 2-propiolactone.  
           [0023]    In order to prepare a vaccine the following procedure may be used, for example.  
           [0024]    Cultures of the strains are homogenized in an aqueous solution containing 0.2 ti 2.0% fermented, hydrolyzed muscle protein (FGM-s), 5 to 12% glucose and 0.1 to 1.2% yeast extract. The concentration of the microconidia is adjusted to 4 to 120 million per milliliter and after 1 to 2 days the mixture is inactivated, e.g., with thiomersal (C 9 H 9 O 2 SNaHg) in the ration 1:10,000 to 1:25,000, or with another substance known from the prior art. The resulting suspension is packaged and is ready for use in animals.  
           [0025]    The preparation of the vaccines, the dosage to be given and the method of administration for prevention and therapeutic treatment are explained in Examples 1 to 3.  
           [0026]    The invention now makes it possible to prepare an inactivated vaccine that reduces the probability of reinfection and also implants a high degree of immunity. Unlike the known vaccines, the vaccine according to the invention in practice gives immunity to all important causes of dermatomycosis in animals.  
           [0027]    Briefly, the vaccine according to the invention offers the following advantages:  
           [0028]    in many species of disease-prone animals it establishes immunity after intramuscular injection,  
           [0029]    it grants immunity against almost all causes of dermatomycosis in animals,  
           [0030]    it has stable immunogenic properties,  
           [0031]    it is easy to prepare,  
           [0032]    it has a complete set of exo- and endo-antigens of dermatophyte cultures and shows no side reactions in animals.  
           [0033]    The vaccine has been successfully tested on over 500 animals of different species, predominantly in affected regions.  
           [0034]    The strains used to produce the vaccine have been deposited at the “All-Union Collection of Pathogenic Fungi within the USSR, Ministry of Health Centre for Deep Mycoses” in Leningrad and at the “DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0035]    The following microorganisms were deposited with the Deutsche Sammlung von Mikroorganismen und Zellkulturen (DSM) on Oct. 1, 1992 and received the following accession numbers:  
           [0036]    [0036] T. verrucosum  VKPGF-931/410 received accession No. DSM 7277  
           [0037]    [0037] T. mentagrophytes  VKPGF-930/1032 received accession No. DSM 7279  
           [0038]    [0038] T. equinum  VKPGF-929/381 received accession No. DSM 7276  
           [0039]    [0039] T. sarkisovii  VKPGF-551/68 received accession No. DSM 7278  
           [0040]    [0040] M. canis  VKPGF-928/1393 received accession No. DSM 7281  
           [0041]    [0041] M. canis  var.  obesurn  VKPGF-727/1311 received accession No. DSM 7280  
           [0042]    [0042] M. canis  var.  distorluin  VKPGF-728/120 received accession No. DSM 7275  
           [0043]    [0043] M. gypseun  VKPGF-729/59 received accession No. DSM 7274.  
           [0044]    DSM is located at Macheroder Weg 1B, W-3300 Braunschweig, Germany. “T” is an abbreviation for  Trichophyton  and “M” is an abbreviation for  Microsporum.    
           [0045]    Their characteristics are set out below:  
           [0046]    [0046] Trichophyton Verrucosum , No. VKPGF-931/410  
           [0047]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismeni und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0048]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 410, which was identified on a deer in 1978. The strain was identified using the Rebell-Taplin key (Rebell, G., Taplin, D.: Dermatophytes, their recognition and identification, 1978) and according to Kashkin, P. N. et. al. (Opredelitel patogennykh, toksigenykh vrednykh dlya cheloveka gribov, 1979).  
           [0049]    The biological properties of the strain are described in Table 1.  
           [0050]    Strain No. VKPGF-931/410 differs from the epizootic strain in its faster growth in nutrient medium, the enormous production of microconidia, lower virulence and the absence of any reaction with its antigens.  
           [0051]    [0051] Trichophyton Mentagrophytes  No. VKPGF-930/1032  
           [0052]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0053]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 1032, which was found on a horse in 1985. The strain was identified as described above Rebel, Taplin, loc. cit. and Kashkin, loc. cit.). The biological properties are described in Table 2.  
           [0054]    Strain No. VKPGF-930/1032 differs from the epizootic strain by its faster growth in nutrient medium, the enormous production of microconidia, its lower virulence and the absence of any reaction with its antigens.  
           [0055]    [0055] Trichophyton Equinum  No. VKPGF-929/381  
           [0056]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0057]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 381 which was found on a horse in 1986. The strain was identified as describe above Rebel, Taplin, loc. cit. and Kaslikin, loc. cit.). The biological properties are described in Table 3.  
           [0058]    Strain No. VKPGF-929/381 differs from the epizootic strain by its faster growth in nutrient medium, lower virulence and the absence of any reaction with its antigens.  
           [0059]    [0059] Microsporum Canis  No. VKPGF-928/1393  
           [0060]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0061]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 1393 which was found on a cat in 1988. The strain was identified as describe above Rebel, Taplin, loc. cit. and Kashkin, loc. cit.). The biological properties are described in Table 4.  
           [0062]    Strain No. VKPGF-928/1393 differs from the epizootic strain by its faster growth in nutrient medium, its enormous capacity to carry spores, lower virulence and the absence of any reaction with its antigens.  
           [0063]    [0063] Microsporum Canis  Var.  Obesum  No. VKPGF-727/1311  
           [0064]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0065]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 1311 which was found on a tiger in 1986. The strain was identified as describe above Rebel, Taplin, loc. cit. and Kashkin, loc. cit.). The biological properties are described in Table 5.  
           [0066]    Strain No. VKPGF-727/1311 differs from the epizootic strain by its faster growth in nutrient medium, its enormous capacity to carry spores, lower virulence and the absence of any reaction with its antigens.  
           [0067]    [0067] Microsporum Canis  Var.  Distortum  No. VKPGF-728/120  
           [0068]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganisrnen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0069]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 120 which was found on a black panther in 1987. The strain was identified as describe above Rebel, Taplin, loc. cit. and Kashkin, loc. cit.). The biological properties are described in Table 6.  
           [0070]    Strain No. VKPGF-728/120 differs from the epizootic strain by its faster growth in nutrient medium, its enormnous production of microconidia, its lower virulence and the absence of any reaction with its antigens.  
           [0071]    [0071] Microsporum Gypseum  No. VKPGF-729/59  
           [0072]    The strain was deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen”, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0073]    The strain was obtained by directed selection based on spore production and attenuation of the epizootic Strain No. 59 which was found on a horse in 1985. The strain was identified as describe above Rebel, Taplin, loc. cit. and Kashkin, loc. cit.). The biological properties are described in Table 7.  
           [0074]    Strain No. VKPGF-729/59 differs from the epizootic strain by its faster growth in nutrient medium, the enormous production of microconidia, the lower virulence and the absence of any reaction with its antigens.  
                       TABLE 1                       Properties and characteristics of strain   Strain No. VKPGF-931/410   Epizootic Strain No. 410                   Description of culture   Mature 10-15 day single-spore colony in   Mature 25-30 day colony in agar/wort; cream,           agar/wort; white, velvety, convex, narrow   leathery/velvety, folded, undersurface           growing margin undersurface colorless,   colorless, colony diameter 9-13 mm           colony diameter 10-15 mm       Morphological characteristics   Mature 10-15 day culture with septate   Mature 25-30 day culture with septate branching           branching hyphae 1-3 μm wide, numerous   mycelium 1-3 μm wide, few oval, pyriform,           oval, pyriform microconidia measuring 1.5   cylindrical microconidia measuring 1 to 3 × 3 to 7 μm,           to 3 × 3 to 5 μm, no macroconidia   single elongate irregular shape macroconidia               with 2-5 septates measuring 3 to 5 × 25 to 30 μm,               numerous arthrospores in chains 6-8 μm diameter,               chlamydospores 10-12 μm diameter       Pathogenic characteristics   Thin necrotic scabs   Dense asbestos-like scabs, possible suppuration       12 to 15 days after application of a dose of 500-600   19-20 days   25-30 days       thousand cells of fungal matter per cm 2  to the       scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation at point of injection, edema       Results of subcutaneous and intramuscular       injection of inactivated corpuscular antigens       from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular       antigens, antibody titers observed in blood serum       By Passive Hemagglutination Reaction (PHR)   1:320 to 1:640   1:320 to 1:640       By Enzyme-linked Immunosorbent Assay (ELISA)   1:400 to 1:1600   1:400 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated       antigens from cultures (repeated at least 5 times)                  
 
           [0075]    [0075]                       TABLE 2                       Properties and characteristics of strain   Strain No. VKPGF-930/1032   Epizootic Strain No. 1032                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 25-30 day colony in agar/wort;           cream, velvety/powdered, flat with   white, flat, narrow growing margin,           slight flat elevation in center, narrow   undersurface reddish-brown, colony           growing margin, fringed, undersurface   diameter 15-20 mm           light brown, colony diameter 25-30 mm       Morphological characteristics   Septate, branching hyphae 1-3 μm   Septate, branching straight and spiral           wide, numerous pyriform, oval   hyphae 1-3 μm wide, round, flattened           microconidia measuring 1 to 3 × 2 to 6 μm,   pyriform microconidia measuring 1 to           no macroconidia   3 × 2 to 6 μm, few elongate-oval               macroconidia with 2-5 septates,               measuring 2 to 6 × 15 to 25 μm       Pathogenic characteristics   Necrotic scabs   Dense, asbestos-like scabs       9 to 10 days after application of a dose of 500-600   22-25 days   30-35 days       thousand cells of fungal matter per cm 2  to the scarified       skin of a rabbit Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation at point of injection,       Results of subcutaneous and intramuscular injection of       edema       inactivated corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular       antigens, antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:400 to 1:1600   1:400 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated       antigens from cultures (repeated at least 5 times)                    
           [0076]    [0076]                       TABLE 3                       Properties and characteristics of strain   Strain No. VKPGF-929/381   Epizootic Strain No. 381                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 15 day colony in agar/wort;           white, velvety/powdery, flat with slight   white, velvety, slightly creased           elevation in center, narrow growing   center, narrow growing margin,           margin, fringed, undersurface light   undersurface reddish-brown,           brown, colony   colony diameter           diameter 15-20 mm   13-15 mm       Morphological characteristics   Septate, branching hyphae 1-3 μm   Septate, branching hyphae with coil           wide, numerous oval pyriform   end, 1-4 μm wide, few oval,           microconidia measuring 2 to 3 × 3 to 6 μm,   pyriform microconidia measuring           no macroconidia   2 to 3 × 3 to 7 μm,               lobar macroconidia measuring               4 to 7 × 15 to 25 μm       Pathogenic characteristics   Necrotic scabs   Asbestos-like scabs       10 to 12 days after application of a dose of 500-600 thousand cells   20-22 days   25-30 days       of fungal matter per cm 2  to the scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation at point of injection,       Results of subcutaneous and intramuscular injection of inactivated       edema       corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular antigens,       antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:800 to 1:1600   1:800 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated antigens from       cultures (repeated at least 5 times)                    
           [0077]    [0077]                       TABLE 4                       Properties and characteristics of strain   Strain No. VKPGF-928/1393   Epizootic Strain No. 1393                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 15 day colony in agar/wort;           white, fluffy, convex, narrow growing   greyish-beige, arachnoid, powdery in           margin, arachnoid, undersurface brown,   center, growing margin fringed,           colony diameter 30-35 mm   undersurface yellowish, colony               diameter 20-25 mm       Morphological characteristics   Septate, branching hyphae 1-4 μm wide,   Septate, branching hyphae 2 to 6 μm           numerous pyriform, cylindrical   wide, few pyriform, cylindrical           microconidia, few fusiform   microconidia measuring 1 to 3 × 3 to 7 μm,           macroconidia with 3-11 septates,   numerous fusiform macroconidia           measuring 10 to 20 × 40 to 75 μm   with 3-11 septates, measuring 10 to 20 × 45               to 85 μm       Pathogenic characteristics   Necrotic scabs   Dense, asbestos-like scabs       9 to 11 days after application of a dose of 500-600 thousand   20-24 days   25-45 days       cells of fungal matter per cm 2  to the scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Edema and inflammation at point of       Results of subcutaneous and intramuscular injection of       injection       inactivated corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular       antigens, antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:400 to 1:1600   1:400 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated antigens       from cultures (repeated at least 5 times)                    
           [0078]    [0078]                       TABLE 5                       Properties and characteristics of strain   Strain No. VKPGF-727/1311   Epizootic Strain No. 1311                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 15 day colony in agar/wort;           white, fluffy, flat with a denser central dome-   greyish, fasciculate/arachnoid with           like elevation, narrow growing margin,   pieces of cottony white mycelium,           fringed, undersurface colorless with brown   growing margin fringed, undersurface           center, colony diameter 30-35 mm   brownish, colony diameter 23-28 mm       Morphological characteristics   Septate, branching hyphae 1-3 μm   Septate, branching hyphae 1-5 μm           wide, numerous pyriform, oval and   wide, few oval, cylindrical microconidia           cylindrical microconidia measuring 1 to   measuring 1 to 3 × 3 to 8 μm, numerous           3 × 3 to 7 μm, few short, elliptical,   elliptical, fusiform, elongate-oval or           fusiform, elongate-oval macroconidia,   irregularly-shaped macroconidia with           some irregular shapes, less frequently   2-5 septates, measuring 11 to 20 × 25           “beaked”, with 2-5 septates, measuring   to 55 μm           11 to 20 × 25 to 50 μm       Pathogenic characteristics   Thin necrotic scabs   Dense, asbestos-like scabs       12 to 15 days after application of a dose of 500-600 thousand   10-25 days   25-30 days       cells of fungal matter per cm 2  to the scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation and edema at point of       Results of subcutaneous and intramuscular injection of       injection       inactivated corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular antigens,       antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:800 to 1:1600   1:800 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated antigens       from cultures (repeated at least 5 times)                    
           [0079]    [0079]                       TABLE 6                       Properties and characteristics of strain   Strain No. VKPGF-728/120   Epizootic Strain No. 120                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 15 day colony in agar/wort;           cream, velvety/powdery, button-like   light-beige, powdery, umbonate,           elevation in center, narrow growing   narrow growing margin, undersurface           margin, finely-fringed, undersurface   brown, colony diameter 18-20 mm           light-brown with dark-brown center,           colony diameter 25-30 mm       Morphological characteristics   Septate, branching hyphae 1-3 μm   Septate, branching hyphae 1-3 μm           wide, numerous pyriform, oval,   wide, few pyriform, oval, cylindrical           cylindrical microconidia measuring 1 to   microconidia measuring 1 to 3 × 3 to            3 × 3 to 8 μm, few irregular deformed   8 μm, numerous irregular deformed or           macroconidia, distorted or fusiform   fusiform macroconidia with 2-9           with 2-9 septates, measuring 8 to 20 × 25   septates, measuring 8 to 20 × 25 to           to 70 μm   80 μm       Pathogenic characteristics   Thin necrotic scabs   Asbestos-like scabs       12 to 15 days after application of a dose of 500-600 thousand   20-25 days   27-45 days       cells of fungal matter per cm 2  to the scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation and edema at point of       Results of subcutaneous and intramuscular injection of       injection       inactivated corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular antigens,       antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:800 to 1:1600   1:800 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated antigens from       cultures (repeated at least 5 times)                    
           [0080]    [0080]                       TABLE 7                       Properties and characteristics of strain   Strain No. VKPGF-729/59   Epizootic Strain No. 59                   Description of culture   Mature 10-15 day colony in agar/wort;   Mature 15 day colony in agar/wort;           white, velvety/fluffy, flat with slight   cream, velvety/powdery, flat with fluffy           elevation in center of colony, flat   white mycelium in center, thin growing           growing margin, undersurface brownish,   margin, undersurface brownish, colony           colony diameter 25-30 mm   diameter 20-22 mm       Morphological characteristics   Septate, branching hyphae 2-3 μm wide,   Septate, branching hyphae 2-5 μm wide,           numerous oval, pyriform, cylindrical   few oval, pyriform, cylindrical           microconidia measuring 2 to 4 × 3 to 6 μm,   microconidia measuring 2 to 4 × 3 to           no or few macroconidia, elliptical,   7 μm, numerous elliptical, stretched-oval           elongate-oval shape with 2-5 septates,   macroconidia with 2-5 septates,           measuring 7 to 15 × 25 to 40 μm   measuring 7 to 15 × 25 to 50 μm       Pathogenic characteristics   Thin necrotic scabs   Dense, asbestos-like scabs       12 to 15 days after application of a dose of 500-600 thousand   20-22 days   25-28 days       cells of fungal matter per cm 2  to the scarified skin of a rabbit       Spontaneous recovery after       Reaction response   No observed changes in clinical state   Inflammation at point of injection       Results of subcutaneous and intramuscular injection of       inactivated corpuscular antigens from cultures       Antigen response       20 to 25 days after injecting rabbits with corpuscular antigens,       antibody titers observed in blood serum       By PHR   1:320 to 1:640   1:320 to 1:640       By ELISA   1:400 to 1:1600   1:400 to 1:1600       Immunogenic response   Establishes immunity   Establishes immunity       Immunization of a group of rabbits with inactivated antigens       from cultures (repeated at least 5 times)                    
           [0081]    The vaccine may be prepared using the strain  Trichophyton sarkovii , No. 551/68. It is described for example in USSR Patent No. 1177972 dated Aug. 08, 1985, to which reference is made in its entirety.  
           [0082]    This strain was also deposited at the DSM—Deutsche Sammlung von Mikroorganismen und Zellkulturen, Mascheroder Weg 1B, W-3300 Braunschweig, Germany.  
           [0083]    In particular, the invention relates to the following:  
           [0084]    a dermatomycosis vaccine, characterized in that it contains antigenic material from at least one of the following dermatophytes:  
           [0085]    [0085] Trichophyton verrucosum , particularly  Trichophyton verrucosum  Strain No. VKPGF-931/410 and/or  
           [0086]    [0086] Trichophyton mentagrophytes , particularly  Trichophyton mentagroplytes  Strain No. VKPGF-930/1032 and/or  
           [0087]    [0087] Trichophyton sarkisovii , particularly  Trichophyton sarkisovii  Strain No. VKPGF-551/68 and/or  
           [0088]    [0088] Microsporum canis , particularly  Microsporum canis  Strain No. VKPGF-928/1393 and/or  
           [0089]    [0089] Microsporum canis  var.  obesum , particularly  Microsporum canis  var.  obesum  Strain No. VKPGF-727/1311 and/or  
           [0090]    [0090] Microsporum canis  var.  distortum , particularly  Microsporum canis  var.  distortui  Strain No. VKPGF-728/120 and/or  
           [0091]    [0091] Microsporum gypseum , particularly  Microsporuin gypseum  Strain No. VKPGF-729/59, and a physiologically acceptable carrier.  
           [0092]    a dermatomycosis vaccine, particularly as an agent for treating dogs, cats and horses, characterized in that it contains antigenic material from the dermatophyte strains  Trichophyton verrucosum  No. VKPGF-931/410,  Trichophyion mentagrophytes  No. VKPGF-930/1032,  Trichophyton equinum  No. VKPGF-929/381,  Trichophyton sarkisovii  Strain No. VKPGF-551/68,  Microsporum canis  No. VKPGF-928/1393,  Microsporum canis  var.  obesum  No. VKPGF-727/1311,  Microsporum canis  var.  distortum  No. VKPGF-728/120,  Microsporuin gypseum  No. VKPGF-729/59, together with a physiologically acceptable carrier.  
           [0093]    a dermatomycosis vaccine, more particularly as an agent for treating cattle, characterized in that it contains antigenic material from the dermatophyte strains  Trichophyton verrucosum  No. VKPGF-931/410,  Trichophyton mentagrophytes  No. VKPGF-930/1032,  Trichophyton equinum  No. VKPGF-929/381,  Trichophyton sarkisovii  Strain No. VKPGF-551/68, together with a physiologically acceptable carrier.  
           [0094]    a dermatomycosis vaccine as described above, characterized in that it contains 4 to 120 million, preferably 90 million microconidia,  
           [0095]    a dermatomycosis vaccine as described above, characterized in that it contains thiomersal or formaldehyde or 2-propiolactone as inactivator,  
           [0096]    a dermatomycosis vaccine as described above, characterized in that the physiologically acceptable carrier used is an aqueous solution containing 0.2 to 2.0 percent weight of fermented, hydrolyzed muscle protein, 5 to 12 percent weight glucose and 0.1 to 1.2 percent weight yeast extract,  
           [0097]    the dermatophyte strains:  
           [0098]    [0098] Trichophyton verrucosum  Strain No. VKPGF-931/410,  
           [0099]    [0099] Trichophyton mentagrophytes  Strain No. VKPGF-930/1032,  
           [0100]    [0100] Trichophyton equinum  Strain No. VKPGF-929/381,  
           [0101]    [0101] Microsporum canis  Strain No. VKPGF-928/1393,  
           [0102]    [0102] Microsporum canis  var.  obesum  Strain No. VKPGF-727/1311,  
           [0103]    [0103] Microsporum canis  var.  distortum  Strain No. VKPGF-728/120, and  
           [0104]    [0104] Microsporum gypseum  Strain No. VKPGF-729/59.  
           [0105]    a process for preparing a vaccine, characterized in that:  
           [0106]    a. antigenic material is prepared from at least one of the following strains:  
           [0107]    [0107] Trichophyton verrucosum  Strain No. VKPGF-931/410,  
           [0108]    [0108] Trichophyton mentagrophytes  Strain No. VKPGF-930/1032,  
           [0109]    [0109] Trichophyton sarkovii  Strain No. VKPGF-551/68,  
           [0110]    [0110] Microsporum canis  Strain No. VKPGF-928/1393,  
           [0111]    [0111] Microsporum canis  var.  obesum  Strain No. VKPGF-727/1311,  
           [0112]    [0112] Microsporum canis  van.  distorium  Strain No. VKPGF-728/120,  
           [0113]    [0113] Microsporum gypseum  Strain No. VKPGF-729/59, and  
           [0114]    b. the antigenic material is mixed with a physiologically acceptable carrier.  
           [0115]    a process as described above, characterized in that an agent, particularly thiomersal, formaldehyde or 2-propiolactone is added to inactivate the dermatophytes.  
           [0116]    The invention is illustrated by means of the Examples that follow. 
       
    
    
     EXAMPLES  
     Example 1  
       [0117]    To produce 1 liter of vaccine, cultures are taken of the strains VKPGF-931/410, 930/1032, 929/381, 551/68, 928/1393, 727/1311, 728/120, and 729/59 and grown in agar/wort at 26° C. for 15 days. Each culture is grown in 8 mattress flasks. The fungal mass is then lifted off, homogenized, placed in 200 ml of solution and added to each mixer. The solution used is an aqueous solution containing 1% fermented hydrolyzed muscle protein, 10% glucose and 1% yeast extract. The concentration of microconidia is brought to 90 million per ml of homogenate. After 2 days, 125 ml of each culture in suspension is taken and mixed in a single container. The vaccine may be prepared by mixing together various combinations of the given strains.  
         [0118]    To inactivate the homogenate mixture, thiomersal is added directly to the cell suspension in the ration 1:20,000. 50 mg of thiomersal is added for every liter of homogenate. The cell mixture is allowed to stand at room temperature for 2 days.  
         [0119]    The resulting vaccine is bottled, checked for sterility, safety and immunogenic properties in accordance with accepted methods, and kept refrigerated at 4° C.  
         [0120]    Vaccine produced in this manner was used to immunize animals.  
         [0121]    For prophylactic and treatment purposes the vaccine was used in the following doses (see Table 8):  
       Example 2  
       [0122]    The vaccine produced by the method described in Example 1was tested on laboratory animals and various other animals for effectiveness in the prevention and treatment of disease. The results are given in Table 9.  
       Example 3  
       [0123]    The vaccine produced by the method described in Example 1 was also used to treat animals suffering from dermatophytiae. The results are given in Table 10.  
                               TABLE 8                                   Dosage (ml)   Dosage (ml)       Animal family   Age   Site of injection   Prophylactic   Treatment                   Felidae medium/large cats    1-6 months   Gluteal muscles   2-5   3-6             6 months+   Gluteal muscles   3-7    4-10       Small cats    1-5 months   Gluteal muscles     1-1.5     1-1.5             5 months+   Gluteal muscles   1-2   1-2       Ursidae   1-12 months   Gluteal muscles   1-3   3-5            12 months+   Gluteal muscles   3-5   5-6       Procyonidae   1-10 months   Gluteal muscles   0.3-0.5   0.5            10 months+   Gluteal muscles   0.3-0.5   0.5-1.0       Viverridae   1-12 months   Gluteal muscles   0.3-0.5   0.5            12 months+   Gluteal muscles   0.5-1.0   0.5-1.0       Hyaenidae   1-12 months   Gluteal muscles   1-3   1-3            12 months   Gluteal muscles   3-5   5-6       Canidae   1-10 months   Gluteal and   0.3-0.5   0.5-1.0            10 months+   shoulder muscles   0.3-1.0   0.5-1.0       Equidae   3-12 months   Neck area   0.3-0.5   0.5-1.0            12 months+   Neck area   0.5   0.5-1.0       Tyropodae    1-6 months   Shoulder and neck   3-5    5-10             6 months+   area   5-8    7-10       Bovidae   1-12 months   Neck area   3-5    5-10            12 months   Neck area   5-8    7-10                  
 
         [0124]    [0124]                                             TABLE 9                       Type of animals   Number   Dosage (cm 3 )   Effectiveness                                Rabbits   10   1.0   No symptoms of disease after infection with virulent       Dogs   5   0.3   cultures of the fungi  T. mentagrophytes ,  T. verrucosum ,  T.         Domestic cats   3   1.0     equinum ,  M. canis ,  M. gypseum.         Horses   5   0.5   No dermatophytiae linked to the fungi  M. canis  and  T.         Ponies   3   0.3     mentagrophytes  after being in direct contact with diseased       Camels   2   5.0   animals.       Bears   2   3.0       Leopards   2   4.0       Hyenas   2   2.0   No dermatophytiae linked to the fungi  M. canis  and  T.         Servals   2   3.0     mentagrophytes  after being in direct contact with sources of       Ocelots   2   2.0   infection.       Lions   2   3.0       Tigers   3   7.0       Nasuas   3   0.5       Civets   2   1.0       Rabbits   7   1.5   No symptoms of disease after infection with virulent       Dogs   3   0.5   cultures of the fungi  T. sarkisovii  and  M. gypseum.         Domestic cats   3   1.5       Black panthers   2   5.0   No dermatophytiae linked to the fungi  M. canis ,  T.         Tigers   5   7.0     mentagrophytes  and  T. verrucosum  after being in direct       Geese   6   3.0   contact with sources of infection.       Bears   3   1.0       Dogs   8   0.5       Llamas   2   3.0                    
         [0125]    [0125]                                             TABLE 10                       Type of animals   Number   Dosage (cm 3 )   Effectiveness                                Black panthers   5   7.0   Affected by microsporosis linked to the fungi  M. canis.         Black panthers   3   4.0   Recovery took place 12-25 days after immunization.       Horses   3   1.0       Ponies   2   0.5       Lions   3   10       Tigers   3   10       Dogs   4   0.5       Bear   1   5.0       Hyena   1   5.0       Domestic cats   15   1.5   Affected by microsporosis linked to the fungi  M. canis.         Dogs   5   0.5   Recovery took place 10-20 days after immunization.       Horses   5   0.7       Black panther   1   6.0   Affected by trichophytosis linked to the fungi  T.         Red foxes   4   1.0     mentagrophytes.  Recovery took place 12-15 days after       Bears   2   5.0   immunization.       Mountain sheep   1   7.0       Horses   15   1.0   Affected by microsporosis linked to the fungi  M. equinum.                     Recovery took place 12-20 days after immunization.                    
         [0126]    Bibliography  
         [0127]    (1) Aisenberg, A. A., Noskow, A. I., Kolovatsky, P. P. “Primenenie Yuglona v Veterinarii” in Scientific and Technical Information Bulletin of the State and Scientific Control Committee under the Moldavian Council of Ministers (1958), p. 88.  
         [0128]    (2) USSR Patent No. 548947 (1976).