Changes in gross chemical components of Trichophyton mentagrophytes during incubation in increased carbon dioxide tensions

Chin, Bruce,

January 1961

Thesis (Ph. D.)--University of Wisconsin--Madison, 1961. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Trichophyton.

Cytology of species in Trichophyton

Farley, James F.

January 1975

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Trichophyton

Immunochemical studies on the antigenic properties of the cell wall of Trichophyton mentagrophytes

Al-Rammahy, Abdul Khaliq Abdullah

January 1978

Cell wall preparations of Trichophyton mentagrophytes were digested with chitinase following which various fractions were isolated by ultrafiltration and Sephadex gel filtration. All fractions isolated contained both polysaccharide and peptide material. A correlation was seen between those fractions capable of eliciting immediate and delayed skin reactions in sensitized guinea pigs and those capable of stimulating the ±n vitro proliferation of lymphocytes taken from sensitized guinea pigs. These immunologically active fractions also developed precipitin lines with antiserum taken from sensitized animals. Amino acid analysis of an immunologically active fraction of low molecular weight indicated that the peptide content comprised a limited array of amino acids. This fraction, found to be completely reactive immunologically (UM₂(a)), appeared to have a molecular weight in the range of 2,000-4,000 as assessed by ultrafiltration and gel filtration studies. This fraction, (UM₂(a)) was further degraded by treatment with either a combination of pronase and carboxypeptidase A or with trypsin. Peptides were separated from the carbohydrate-rich fraction by ultrafiltration. The carbohydrate-rich fraction retained the ability to induce both immediate and delayed skin reactions in sensitized guinea pigs and to stimulate the proliferation of sensitized lymphocytes in vitro. The peptide moieties retained reactivity in that they caused delayed reactions and lymphocyte proliferation but were unable to induce immediate or Arthus reactions in sensitized animals. Tryptic peptides from UM₂(a) were purified by ion exchange chromatography. A high proportion of these peptides demonstrated immunological activity at both the cellular and humoral level since they were capable of inducing delayed reactions and/or lymphocyte transformation, as well as being capable of blocking the complement fixation reaction between UM₂(a) and specific antiserum. / Science, Faculty of / Microbiology and Immunology, Department of / Graduate

Trichophyton mentagrophytes

Dermatophytes

Trichophyton mentagrophytes

Arthrodermataceae --immunology

Analysis of tests used to differentiate Trichophyton Rubrum from Tichophyton Mentagrphytes

VanAvermaete, David

January 1980

No description available.

Trichophyton.

Dermatophytes.

Medical mycology.

The immune response to the dermatophyte fungus Trichophyton tonsurans : immediate and delayed type hypersensitivity /

Slunt, Jeffrey Brian.

January 1997

Thesis (Ph. D.)--University of Virginia, 1997. / Spine title: The immune response to T. tonsurans. Includes bibliographical references (171-193). Also available online through Digital Dissertations.

Isolation and composition of cell walls of microconidia, macroconidia, and hyphae of Trichophyton mentagrophytes

Carlson, Donald George,

January 1966

Thesis (Ph. D.)--University of Wisconsin, 1966. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Immunological studies of some strains of Trichophyton mentagrophytes

Uchida, Midori Jane

January 1960

The relatively poor immunogenicity of proteinaceous materials obtained from dermatophytes has been demonstrated. The use of incomplete Freund's adjuvant failed to enhance antibody formation to mold antigens. Many cross-reactions occurred between the antisera of rabbits immunized with various antigenic preparations from dermatophytes, as demonstrated by cross-precipitin tests and skin testing. The occurrence of common antigens among the dermatophytes has been confirmed. Pleomorphic strains did not differ markedly in their immunogenicity as compared to their respective non-pleomorphic strains. Skin testing, upon rabbits with dermatophytic antigens elicited responses which were either of the immediate or of the delayed type. Indications were obtained that toxic principles were present in some of these antigens. Skin tests provided better evidence of differentiation between various species and strains than did the precipitin tests. / Science, Faculty of / Microbiology and Immunology, Department of / Graduate

Trichophyton mentagrophytes.

Fungi.

A capacidade de infecção do dermatófito Trichophyton rubrum está correlacionada com a sinalização do pH extracelular / The infection capacity of the dermatophyte Trichophyton rubrum is correlated with extracellular pH signaling

Silveira, Henrique Cesar Santejo

14 September 2007

Dermatofitoses são comumente causadas por fungos que parasitam pele e unha de humanos, cuja propagação depende do contato entre os hospedeiros infectados e não infectados. Muitos fatores contribuem para a patogenicidade dos dermatófitos, dentre eles, a capacidade de se instalar no ambiente ácido da pele se reveste de importância. Sendo assim, para ser bem sucedido, o dermatófito precisa ter capacidade aderente, germinação e penetração rápida das hifas e, portanto, dispor de uma maquinaria metabólica que atue de forma eficiente em pH ácido. A fim de identificar genes supostamente expressos nos passos iniciais da infecção, submetemos a linhagem H6 do dermatófito T. rubrum ao pH ácido por 30 minutos e 1 hora e isolamos dessas condições experimentais os transcritos com elevada expressão, empregando a metodologia de Biblioteca Subtrativa Supressiva (SSH). Obtivemos um total de 234 unigenes cujos transcritos revelaram ampla diversidade funcional. Esses transcritos estão envolvidos em 13 processos celulares diferentes, tais como, metabolismo, defesa e virulência, síntese de proteínas e transporte celular. Desses, confirmamos por Northern blotting, os genes que expressam as proteínas carboxipeptidase S1, acetoamidase, aconitase, dessaturase, a proteína TINA, transportador de aminoácidos, fator de alongamento alfa 1, proteína ribossomal L10, e uma proteína hipotética. Nesses experimentos também foi utilizada a linhagem de T. rubrum pacC-1, que tem o seu gene pacC rompido, com o objetivo de verificar se estes genes isolados seriam regulados pela proteína PacC. O gene pacC codifica uma proteína homóloga ao regulador transcricional PacC/Rim101p da conservada via de sinalização do pH. Verificamos que o gene pacC se expressa preferencialmente em pH 8.0 e que embora o padrão de processamento da proteína PacC seja dependente do pH a forma íntegra da proteína PacC foi identificada tanto em pH ácido como alcalino. Por outro lado, o mutante pacC-1 apresentou diminuida capacidade infectiva em fragmentos de unha humana quando comparado com a linhagem selvagem. Além disto, a atividade queratínolitica do mutante também se mostrou diminuída quando comparada ao controle, confirmando o papel da proteína PacC na capacidade infectiva do T. rubrum. / Dermatophytosis is commonly caused by fungi that parasite human skin and nail, whose propagation depends on the contact between infected and noninfected hosts. Many factors contribute to the pathogenicity of the dermatophytes. Among them, the capacity to install in the skin´s acid ambient bears great importance. Thus, in order to be successful, the dermatophyte needs to have adhering capacity, fast germination and penetration of hyphae and, therefore, needs to afford a metabolic machinery which acts efficiently in acid pH. In order to identify genes supposedly expressed in the initial steps of infection, we submitted the strain H6 of the dermatophyte T. rubrum to the acid pH for 30 minutes and 1 hour and isolated, from this experimental conditions, the transcripts with high expression, employing the suppression subtractive hybridization (SSH). We obtained a total of 234 unigenes whose transcripts revealed a wide functional diversity. These transcripts are involved in 13 different cell processes, such as metabolism, defense and virulence, protein synthesis and cell transport. Among these, we confirmed through Northern blotting the genes which express the proteins carboxipeptidase S1, acetamidase, aconitase, fatty acid desaturase, NIMA interactive protein (TINA), amino acid permease, elongation factor 1-alpha, 60S ribosomal protein L10 and a hypothetical protein. In these experiments, we also used the T. rubrum pacC- 1 strain, which has its pacC gene disrupted, aiming at verifying whether these isolated genes would be regulated by the PacC protein. The pacC gene encodes a protein homologous to the PacC/Rim101p transcriptional regulator of the conserved route of pH signaling. We verified that the pacC gene is expressed preferentially in both pH, and that although the processing pattern of the PacC protein is dependent on the pH, the full form of the PacC was identified as alkaline. On the other hand, the pacC-1 mutant presented diminished infecting capacity in human nail fragments when compared to the wild strain. Moreover, the keratinolytic activity of the mutant also seemed diminished when compared to the control, confirming the role of the PacC protein in the infecting capacity of T. rubrum.

Trichophyton rubrum

Biblioteca subtrativa

pH

pH

Subtractive Library

Trichophyton rubrum

Influência do Gene pacC na Regulação de Manosiltransferases no Dermatófito Trichophyton rubrum em Função de Variações Nutricionais e pH Ambiente. / Influence of Gene pacC in Mannosiltransferase Regulation of the Dermathophyte Trichophyton rubrum in Function to Changes by pH and Nutrient Sources.

Mendes, Niege Silva

02 December 2011

A regulação da expressão gênica é essencial para os fungos se adaptarem às adversidades ambientais, como alterações no pH extracelular, escassez de nutrientes, força iônica e oscilações de temperatura. A resposta adaptativa ao pH ambiente é bem caracterizada em fungos modelo como Aspergillus nidulans, e envolve a via de transdução de sinal constituída pelos produtos dos genes pal e pacC. No dermatófito Trichophyton rubrum, o gene pacC foi inativado, e a linhagem mutante apresentou uma diminuição na atividade das queratinases, indicando que, de alguma forma, este gene está envolvido na regulação da atividade queratinolítica deste dermatófito, e consequentemente na sua virulência e patogenicidade. Além disto, a glicosilação protéica é uma importante forma de regulação pós traducional, estruturando e estabilizando glicoproteínas que podem ser da via secretória, da parede ou da membrana celular. O processo de glicosilação protéica sofre influência do pH extracelular e da fonte nutricional. Foi ainda relatado que este tipo de regulação pós traducional também sofre influência dos genes palB e pacC, indicando que estes genes tenham um papel na glicosilação de enzimas secretadas. O objetivo deste trabalho foi analisar a influência do pH e da fonte nutricional na expressão de genes que codificam enzimas de N- e O-manosilação, e sua possível modulação pela proteína PacC no dermatófito T. rubrum. Para tanto, foi analisado, por PCR em tempo real, o perfil transcricional destes genes nas linhagens H6 (controle) e pacC-1, utilizando-se como fonte de carbono glicose, glicose e glicina ou queratina em vários tempos de cultivo, em pH 5,0 ou 8,0. A análise da expressão gênica revelou que quando a linhagem controle é cultivada em queratina em pH 5,0 ocorre um aumento da expressão da O-manosiltransferase, comparado com o cultivo em glicina com glicose e glicose. Porém, nestas mesmas condições o gene da N-manosiltransferase da linhagem mutante apresenta maiores níveis de expressão que os da linhagem controle. Em pH 8,0 pode-se notar grande semelhança entre os perfis de expressão apresentados por estes dois genes. Os resultados obtidos indicam que o gene pacC tem um papel importante no sensoriamento de nutrientes em meio ácido, modulando a expressão destas transferases, nas condições avaliadas. Estas enzimas podem ativar proteínas que atuam na hidrólise da queratina, ou mesmo formar glicoproteínas de parede celular que são essenciais na adesão do fungo à célula do hospedeiro, sugerindo um papel das manosiltransferases no processo infeccioso. / Gene expression regulation is essential for fungi to adapt to environmental adversities, such as changes in the extracellular pH, nutrient starvation, ionic strength, and temperature. The adaptive response to ambient pH is well characterized in model fungi such as Aspergillus nidulans, and involves the signal transduction pathway consisting of the products of the pal and pacC genes. In the dermatophyte Trichophyton rubrum, the pacC gene was inactivated and the mutant strain showed a decreased activity of keratinases, indicating that, somehow, this gene is involved in the regulation of the keratonolytic activity of this dermatophyte, and consequently in its virulence and pathogenicity. Moreover, protein glycosylation is an important form of post-translational regulation, playing a role in protein folding and stability of glycoproteins of the secretory pathway, cell wall or membrane. The process of protein glycosylation is influenced by extracellular pH and nutritional source. It has also been reported that this type of post-translational regulation is also influenced by the palB and pacC genes, indicating that these genes have a role in glycosylation of secreted enzymes. The objective of this study was to analyze the influence of the pH and nutritional source in the expression of the genes coding for the N-and O-manosylation enzymes, and their possible modulation by PacC in the dermatophyte T. rubrum. To this end, the transcriptional profile of these genes was analyzed, by Real Time PCR, in the H6 (control) and pacC-1 strains, using glucose, glucose with glycine, or keratin as the carbon source, in several culture times, at pH 5.0 or 8.0. Gene expression analysis showed that when the control strain is grown in keratin at pH 5.0 there is an increased expression of the O-manosyltransferase encoding gene, compared to the cultivation in glucose and glucose with glycine. However, at the same conditions the gene coding for the N-manosyltransferase presented higher levels of expression in the mutant strain in relation to the control strain. At pH 8.0 there is a great similarity between the expression profile of these two genes. The obtained results indicate that pacC gene plays an important role in nutrient sensing at acidic pH by modulating the expression of these transferases in the conditions evaluated. These enzymes can activate proteins that play roles in the hydrolysis of keratin, or even forming cell wall glycoproteins that are essential for the adhesion of the fungus to the host cell, suggesting a role of the manosyltransferases in the infectious process.

Trichophyton rubrum

Trichophyton rubrum

Extracellular pH

Glicosilação

Glycosylation.

pH extracelular

A capacidade de infecção do dermatófito Trichophyton rubrum está correlacionada com a sinalização do pH extracelular / The infection capacity of the dermatophyte Trichophyton rubrum is correlated with extracellular pH signaling

Henrique Cesar Santejo Silveira

14 September 2007

Dermatofitoses são comumente causadas por fungos que parasitam pele e unha de humanos, cuja propagação depende do contato entre os hospedeiros infectados e não infectados. Muitos fatores contribuem para a patogenicidade dos dermatófitos, dentre eles, a capacidade de se instalar no ambiente ácido da pele se reveste de importância. Sendo assim, para ser bem sucedido, o dermatófito precisa ter capacidade aderente, germinação e penetração rápida das hifas e, portanto, dispor de uma maquinaria metabólica que atue de forma eficiente em pH ácido. A fim de identificar genes supostamente expressos nos passos iniciais da infecção, submetemos a linhagem H6 do dermatófito T. rubrum ao pH ácido por 30 minutos e 1 hora e isolamos dessas condições experimentais os transcritos com elevada expressão, empregando a metodologia de Biblioteca Subtrativa Supressiva (SSH). Obtivemos um total de 234 unigenes cujos transcritos revelaram ampla diversidade funcional. Esses transcritos estão envolvidos em 13 processos celulares diferentes, tais como, metabolismo, defesa e virulência, síntese de proteínas e transporte celular. Desses, confirmamos por Northern blotting, os genes que expressam as proteínas carboxipeptidase S1, acetoamidase, aconitase, dessaturase, a proteína TINA, transportador de aminoácidos, fator de alongamento alfa 1, proteína ribossomal L10, e uma proteína hipotética. Nesses experimentos também foi utilizada a linhagem de T. rubrum pacC-1, que tem o seu gene pacC rompido, com o objetivo de verificar se estes genes isolados seriam regulados pela proteína PacC. O gene pacC codifica uma proteína homóloga ao regulador transcricional PacC/Rim101p da conservada via de sinalização do pH. Verificamos que o gene pacC se expressa preferencialmente em pH 8.0 e que embora o padrão de processamento da proteína PacC seja dependente do pH a forma íntegra da proteína PacC foi identificada tanto em pH ácido como alcalino. Por outro lado, o mutante pacC-1 apresentou diminuida capacidade infectiva em fragmentos de unha humana quando comparado com a linhagem selvagem. Além disto, a atividade queratínolitica do mutante também se mostrou diminuída quando comparada ao controle, confirmando o papel da proteína PacC na capacidade infectiva do T. rubrum. / Dermatophytosis is commonly caused by fungi that parasite human skin and nail, whose propagation depends on the contact between infected and noninfected hosts. Many factors contribute to the pathogenicity of the dermatophytes. Among them, the capacity to install in the skin´s acid ambient bears great importance. Thus, in order to be successful, the dermatophyte needs to have adhering capacity, fast germination and penetration of hyphae and, therefore, needs to afford a metabolic machinery which acts efficiently in acid pH. In order to identify genes supposedly expressed in the initial steps of infection, we submitted the strain H6 of the dermatophyte T. rubrum to the acid pH for 30 minutes and 1 hour and isolated, from this experimental conditions, the transcripts with high expression, employing the suppression subtractive hybridization (SSH). We obtained a total of 234 unigenes whose transcripts revealed a wide functional diversity. These transcripts are involved in 13 different cell processes, such as metabolism, defense and virulence, protein synthesis and cell transport. Among these, we confirmed through Northern blotting the genes which express the proteins carboxipeptidase S1, acetamidase, aconitase, fatty acid desaturase, NIMA interactive protein (TINA), amino acid permease, elongation factor 1-alpha, 60S ribosomal protein L10 and a hypothetical protein. In these experiments, we also used the T. rubrum pacC- 1 strain, which has its pacC gene disrupted, aiming at verifying whether these isolated genes would be regulated by the PacC protein. The pacC gene encodes a protein homologous to the PacC/Rim101p transcriptional regulator of the conserved route of pH signaling. We verified that the pacC gene is expressed preferentially in both pH, and that although the processing pattern of the PacC protein is dependent on the pH, the full form of the PacC was identified as alkaline. On the other hand, the pacC-1 mutant presented diminished infecting capacity in human nail fragments when compared to the wild strain. Moreover, the keratinolytic activity of the mutant also seemed diminished when compared to the control, confirming the role of the PacC protein in the infecting capacity of T. rubrum.

Trichophyton rubrum

Biblioteca subtrativa

pH

pH

Subtractive Library

Trichophyton rubrum