Passive immunization with melanin-binding monoclonal antibodies prolongs survival of mice with lethal Cryptococcus neoformans infection

Passive immunization with monoclonal antibodies (MAbs) to melanin prolonged the survival of and reduced the fungal burden in Cryptococcus neoformans-infected mice in comparison to controls. MAbs to melanin reduced the growth rate of in vitro-melanized C. neoformans cells, suggesting a new mechanism of antibody-mediated protection.     

Scytalidium dimidiatum causing recalcitrant subcutaneous lesions produces melanin

Scytalidium dimidiatum is a pigmented dematiaceous coelomycete that typically causes chronic superficial skin diseases and onychomycosis, as well as deeper infections, such as subcutaneous abscesses, mycetoma, and even fungemia in immunocompromised patients. A second species, Scytalidium hyalinum, has hyaline hyphae and arthroconidia and is considered by some authors to be an albino mutant of S. dimidiatum. This study aimed to confirm the presence of melanin or melanin-like compounds (which have been previously implicated in the virulence of other fungal pathogens) in S. dimidiatum from a patient with multiple subcutaneous nodules. Treatment of the hyphae and arthroconidia with proteolytic enzymes, denaturant, and concentrated hot acid yielded dark particles, which were stable free radicals, consistent with their identification as melanins. Extracted melanin particles from S. dimidiatum cultures were labeled by melanin-binding monoclonal antibodies (MAbs) from Sporothrix schenckii, Aspergillus fumigatus, and Cryptococcus neoformans. Lesional skin from the patient infected with S. dimidiatum contained fungal cells that were labeled by melanin-binding MAbs, and digestion of the tissue yielded dark particles that were also reactive. S. hyalinum was also subjected to the melanin extraction protocol, but no dark particles were yielded.     

Synthesis of melanin-like pigments by Sporothrix schenckii in vitro and during mammalian infection

Melanin has been implicated in the pathogenesis of several important human fungal pathogens. Existing data suggest that the conidia of the dimorphic fungal pathogen Sporothrix schenckii produce melanin or melanin-like compounds; in this study we aimed to confirm this suggestion and to demonstrate in vitro and in vivo production of melanin by yeast cells. S. schenckii grown on Mycosel agar produced visibly pigmented conidia, although yeast cells grown in brain heart infusion and minimal medium broth appeared to be nonpigmented macroscopically. However, treatment of both conidia and yeast cells with proteolytic enzymes, denaturant, and concentrated hot acid yielded dark particles similar in shape and size to the corresponding propagules, which were stable free radicals consistent with identification as melanins. Melanin particles extracted from S. schenckii yeast cells were used to produce a panel of murine monoclonal antibodies (MAbs) which labeled pigmented conidia, yeast cells, and the isolated particles. Tissue from hamster testicles infected with S. schenckii contained fungal cells that were labeled by melanin-binding MAbs, and digestion of infected hamster tissue yielded dark particles that were also reactive. Additionally, sera from humans with sporotrichosis contained antibodies that bound melanin particles. These findings indicate that S. schenckii conidia and yeast cells can produce melanin or melanin-like compounds in vitro and that yeast cells can synthesize pigment in vivo. Since melanin is an important virulence factor in other pathogenic fungi, this pigment may have a similar role in the pathogenesis of sporotrichosis.     

Activation of the alternative complement pathway by fungal melanins.

Melanins are complex biological pigments formed by the oxidative polymerization of phenolic and/or indolic compounds. These pigments have been implicated in the pathogenesis of some microbial infections, malignancies, degenerative disorders, and autoimmune diseases. Recent studies have demonstrated that melanins have antigenic and anti-inflammatory properties. These findings led us to further explore the interaction of melanins with the immune system. Melanin particles ("ghosts") were isolated from in vitro-melanized Cryptococcus neoformans cells and Aspergillus niger conidia and then incubated in normal human serum containing (125)I-labeled complement C3. The results demonstrated deposition of C3 fragments onto the melanin ghosts as early as 1 min after incubation, with maximum deposition occurring after 12 min for C. neoformans-derived melanin ghosts and after 25 min for A. niger-derived melanin ghosts. The blocking of classical pathway activation did not affect the kinetics or total deposition of C3 onto the melanin ghosts, indicating that melanins activate complement through the alternative pathway. Immunofluorescence analysis of lungs from BALB/c mice injected intratracheally with C. neoformans-derived melanin ghosts demonstrated deposition of C3 fragments onto the ghosts. Small granulomas were also observed surrounding the ghosts. However, melanization of the C. neoformans cell wall did not alter the kinetics or total deposition of C3 fragments onto the fungal cells. The finding that melanin surfaces can activate the complement system suggests a potential mechanism for the pathogenesis of some degenerative and/or autoimmune processes that involve melanized cells as well as another potential role for melanin in the virulence of melanin-producing microorganisms.     

Melanin as a potential cryptococcal defence against microbicidal proteins.

Cryptococcus neoformans is an important fungal pathogen that synthesizes melanin when grown in the presence of phenolic substrates. The ability of C. neoformans to produce melanin is associated with virulence, but the specific role of melanin in the pathogenesis of infection is not clear. In this study the ability of C. neoformans melanin to bind proteins and protect against microbicidal peptides was investigated. Melanin was shown to bind a variety of proteins of fungal and mammalian origin. Melanin-protein interactions were dependent on the pH of the solution and on the amount of protein and melanin present. Melanized cells were less susceptible to killing by three microbicidal peptides: a defensin, a protegrin, and a magainin. Incubation of the microbicidal peptides with melanin particles, followed by removal of the melanin, reduced or abolished fungicidal activity, demonstrating interactions between peptides and melanin. The ability of melanin to bind proteins and to protect against microbicidal peptides suggests a protective function for melanin, whereby it sequesters microbicidal peptides and abrogates their activity.     

Monoclonal antibodies to Cryptococcus neoformans capsular polysaccharide modify the course of intravenous infection in mice.

Immunoglobulin G1 (IgG1) monoclonal antibodies (MAbs) to the capsular glucuronoxylomannan (GXM) were studied for their ability to modify the course of intravenous Cryptococcus neoformans infection in mice. A/J mice were given intraperitoneal injection of 1.0 mg of either a GXM-binding IgG1 MAb (2H1 or 2D10 gamma 1) or the irrelevant isotype-matched control MAb 36-65 prior to intravenous infection. Parameters used to study antibody efficacy were lung and brain tissue fungal burden, lung and brain weights, serum GXM levels, and histopathological examination of lung, brain, heart, kidney, and spleen tissues. Mice given GXM-binding MAb had significantly reduced lung tissue fungal burden as measured by CFU. In contrast to the reduction in lung tissue burden, the reduction in brain tissue burden was small and did not achieve statistical significance. Serum GXM levels were reduced in mice receiving GXM-binding MAb. Histopathological examination revealed reduced numbers of granulomas and C. neoformans organisms in the lungs, brains, and kidneys of MAb 2H1-treated mice relative to control mice. The lungs and brains of mice receiving GXM-binding MAb weighed significantly less than those of control animals, consistent with the reduced inflammation noted histologically. Subendocardial inflammation and kidney cortical infarctions were present in control infected mice but not in MAb 2H1-treated mice. Immunocytochemical staining for polysaccharide antigen revealed a marked reduction in the amount of tissue polysaccharide in mice treated with MAb 2H1 relative to control mice. The results support an useful role for passive antibody administration in C. neoformans infections.     

Detection of antibodies against Paracoccidioides brasiliensis melanin in in vitro and in vivo studies during infection

Several cell wall constituents, including melanins or melanin-like compounds, have been implicated in the pathogenesis of a wide variety of microbial diseases caused by diverse species of pathogenic bacteria, fungi, and helminthes. Among these microorganisms, the dimorphic fungal pathogen Paracoccidioides brasiliensis produces melanin in its conidial and yeast forms. In the present study, melanin particles from P. brasiliensis were injected into BALB/c mice in order to produce monoclonal antibodies (MAbs). We identified five immunoglobulin G1 (IgG1) κ-chain and four IgM melanin-binding MAbs. The five IgG1 κ-chain isotypes are the first melanin-binding IgG MAbs ever reported. The nine MAbs labeled P. brasiliensis conidia and yeast cells both in vitro and in pulmonary tissues. The MAbs cross-reacted with melanin-like purified particles from other fungi and also with commercial melanins, such as synthetic and Sepia officinalis melanin. Melanization during paracoccidioidomycosis (PCM) was also further supported by the detection of IgG antibodies reactive to melanin from P. brasiliensis conidia and yeast in sera and bronchoalveolar lavage fluids from P. brasiliensis-infected mice, as well as in sera from human patients with PCM. Serum specimens from patients with other mycoses were also tested for melanin-binding antibodies by enzyme-linked immunosorbent assay, and cross-reactivities were detected for melanin particles from different fungal sources. These results suggest that melanin from P. brasiliensis is an immunologically active fungal structure that activates a strong IgG humoral response in humans and mice.     

Production of species-specific murine monoclonal antibodies against Cryptococcus neoformans which recognize a noncapsular exoantigen

Three monoclonal antibodies (MAbs), designated 7C5, 7C9, and 5G8, against a cytoplasmic antigen of Cryptococcus neoformans were produced. MAbs 7C5 and 7C9 recognize culture filtrate antigen (exoantigen) of both encapsulated and nonencapsulated isolates of this pathogen, which suggests that they do not recognize capsular polysaccharide material. This is supported by immunofluorescence data which show reactivity of all 3 MAbs to cytoplasm and cell membranes only. MAb 7C9 also recognized C. neoformans var. gattii antigens but no other fungal pathogens tested in an enzyme-linked immunosorbent assay, while 7C5 and 5G8 recognized antigens of the cross-reactive pathogen Trichosporon beigelii but did not recognize either C. neoformans var. gattii isolates or any other fungal antigens. By Western blot (immunoblot), 7C9 detected antigen at 110 to 120, 65 to 70, 45 to 50, and 36 to 38 kDa; in addition to the latter band, the other two MAbs recognized a band at approximately 30 kDa. All three MAbs were of the immunoglobulin G1 subclass. The two MAbs which are capable of reacting with noncapsular culture supernatant antigen have possible uses in serodiagnosis, particularly in AIDS patients infected with C. neoformans, since in this group the present latex agglutination test has some limitations.     

Phenoloxidase activity and virulence in isogenic strains of Cryptococcus neoformans

A naturally occurring Mel- variant of Cryptococcus neoformans was isolated from the wild type. The effect of phenoloxidase activity on virulence was analyzed on genetically constructed Mel+ and Mel- isolates. The traits Mel+ and virulence in mice, as measured by cumulative mortality and replication potential in brain tissue, cosegregated among the progeny of a Mel+ X Mel- cross. Revertants (MelR) isolated during the course of the cumulative mortality experiment were used to compare virulence in isogenic sets of Mel- and MelR. In two separate sets of such isolates, Mel+ phenotype and virulence coreverted. Measurement of substrate uptake and phenoloxidase activity showed that loss of detectable phenoloxidase was the basis for the Mel- phenotype and that enzyme activity reappeared in the MelR isolates. An intermediate phenotype, Melbg, was also described. Cosegregation and coreversion of the melanin phenotype and virulence suggest that phenoloxidase is a virulence factor in C. neoformans.     

Role of the mannose receptor in a murine model of Cryptococcus neoformans infection

Cryptococcus neoformans is an encapsulated fungal pathogen with a predilection to infect persons with suppressed T-cell function. Cryptococcal mannoproteins (MP) are highly mannosylated antigens which elicit T-cell responses in infected mice and in convalescent patients. Key to the immunogenicity of MP is its capacity to bind to the conserved mannose receptor (MR), CD206, on dendritic cells (DCs). To test the role of the MR in the immune response to C. neoformans, wild-type and MR knockout (MR KO) mice were compared by using in vivo and ex vivo models of cryptococcosis. Following a pulmonary challenge with C. neoformans, MR KO mice died significantly faster than wild-type mice and had higher lung fungal burdens after 4 weeks of infection. Uptake of MP was similar when DCs obtained from wild-type and MR KO mice were compared. Additionally, MP did not upregulate the maturation markers major histocompatibility complex class II, CD86, and CD40 in either wild-type or MR KO DCs. However, MP stimulated lymphoproliferation in CD4(+) T cells obtained from the peripheral lymph nodes of infected wild-type but not MR KO mice. These studies demonstrate a nonredundant role for the MR in the development of CD4(+) T-cell responses to MP and protection from C. neoformans.     

Encapsulation and melanin formation as indicators of virulence in Cryptococcus neoformans

Acapsular (Cap-) mutants of Cryptococcus neoformans var. neoformans that produce melanin (Mel+) on diphenol media at 30 degrees C but not at 37 degrees C were found to be avirulent for mice. Compared with wild-type isolates, the mutants had a lower rate of L-3,4-dihydroxyphenylalanine uptake at 37 degrees C and showed an insignificant level of phenoloxidase activity at both temperatures. To study the relationship of Cap and Mel phenotypes to virulence in mice, we crossed one of the mutants (Cap- Mel-) with a wild type (Cap+ Mel+) to obtain four classes of progeny (Cap+ Mel+, Cap+ Mel-, Cap- Mel+, and Cap- Mel-). The progeny with the Cap+ Mel+ phenotype and the wild-type parent (Cap+ Mel+) were inoculated into mice (10(6) cells per mouse) and, within 40 days, produced fatal infection in 90 to 100% of the animals. None of the other three phenotypes produced fatal infection within the same period. While progeny with the Cap+ Mel- phenotype did produce fatal infection after 40 days, 70 to 90% of the mice survived at least until day 70. However, in the isolates recovered from the brain tissue of a mouse that died on day 68, nearly 40% of the CFU had reverted to the Cap+ Mel+ type. The virulence of one of these revertant Cap+ Mel+ isolates was compared with that of a Cap+ Mel- isolate recovered from the same tissue. One hundred percent of the mice inoculated with the revertant died within 35 days, while no fatal infection was produced in the mice inoculated with the Cap+ Mel- isolate within the same period. The isolates with the Cap- Mel+ or Cap- Mel- phenotype not only failed to produce fatal infection but failed to revert to the Cap+ Mel+ type in the mouse brain during the experimental period. These results indicate that both the Cap+ phenotype and the Mel+ phenotype are important indicators of virulence in C. neoformans.     

Evidence That Cryptococcus neoformans Is Melanized in Pigeon Excreta: Implications for Pathogenesis

Structures similar to the melanin "ghosts" of melanized cryptococcal cells were isolated from pigeon excreta contaminated with Cryptococcus neoformans, and their growth in pigeon excreta supported melanization. The results suggest that environmental C. neoformans cells are melanized and imply that initial infection may involve exposure to melanized cells.     

Requirement for CD4(+) T lymphocytes in host resistance against Cryptococcus neoformans in the central nervous system of immunized mice

The importance of cell-mediated immunity (CMI) and CD4(+) T lymphocytes in host resistance against Cryptococcus neoformans is well documented and is exemplified by the high susceptibility to progressive infection with this pathogen of AIDS patients with reduced CD4(+) T-cell numbers. Although much has been learned about the role of CMI in the clearance of C. neoformans from the lungs and other internal organs, less is known about the protective mechanisms in the brain, the organ most frequently involved with a fatal outcome of cryptococcosis. We hypothesized that host resistance mechanisms against C. neoformans in the central nervous system (CNS) were similar to those outside the CNS (i.e., gamma interferon [IFN-gamma], CD4(+) T cells, and others). To test this hypothesis, we used a murine model of cryptococcal meningitis whereby cryptococci are introduced directly into the CNS. In experiments where mice were immunized to mount an anticryptococcal CMI response, our results indicate that immunization induced protective mechanisms that could be detected in the CNS by inhibition of the growth of viable yeast cells. Flow cytometric analyses of leukocytes in brain and spinal cord homogenates revealed that T lymphocytes, macrophages, and neutrophils accumulated in C. neoformans-infected brains of immune mice. In vivo depletion of CD4(+) T cells, but not CD8(+) T cells, resulted in significantly reduced leukocyte accumulation in the brains of immune mice. Furthermore, depletion of CD4(+) T cells or neutralization of IFN-gamma exacerbated CNS infection in immune mice, suggesting a critical role for CMI mechanisms in acquired protection in the CNS.     

Role of CD4+ T cells in a protective immune response against Cryptococcus neoformans in the central nervous system.

Cryptococcosis is a life-threatening disease caused by the encapsulated yeast, Cryptococcus neoformans. Although infection with C. neoformans is initiated in the lungs, morbidity and mortality is mostly associated with infections of the central nervous system (CNS). Individuals with deficiencies in cell-mediated immunity, such as patients with AIDS, are more susceptible to disseminated cryptococcosis, highlighting the importance of cell-mediated immunity and CD4+ T cells in host resistance against C. neoformans. Using a mouse model of cryptococcal meningoencephalitis, we have shown that immunization of mice with a cryptococcal antigen induced a protective immune response that crossed the blood-brain barrier and initiated an immune response directly in the CNS if C. neoformans was present. The regional protective response was characteristic of a Type-1 (Th1) response in the types of cells present at the site of infection and in the cytokines and chemokines expressed. Here, we extend those findings and report that CD4+ T cells are required for survival of immune mice infected directly in the brain with C. neoformans and sensitized CD4 + T cells can transfer partial protection to naive mice infected intracerebrally with C. neoformans. Furthermore, CD4 + T cells were also important for optimal infiltration of inflammatory cells at the site of infection and in the expression of cytokines and chemokines associated with protection in the brain. Lastly, CD4+ T cells were required for optimal regional production and secretion of IFNgamma and in the significantly increased expression of iNOS in C. neoformans-infected brains of immune mice.     

Experimental systemic infection with Cryptococcus neoformans var. grubii and Cryptococcus gattii in normal and immunodeficient mice.

Cryptococcus neoformans (Cn) var. grubii or Cryptococcus neoformans var. neoformans infection is usually associated with immunocompromised hosts, whereas Cryptococcusgattii more frequently causes disease in immunocompetent hosts. We examined the effects of immunodeficiency and glucocorticoid-induced immunosuppression on systemic murine infection induced by i.v. inoculation with these pathogens. SCID and immunocompetent BALB/c and C57BL/6 mice were infected with 相似文献   

Environmental prevalence of Cryptococcus neoformans and Cryptococcus gattii in India: an update

An overview of work done to-date in India on environmental prevalence, population structure, seasonal variations and antifungal susceptibility of Cryptococcus neoformans and Cryptococcus gattii is presented. The primary ecologic niche of both pathogens is decayed wood in trunk hollows of a wide spectrum of host trees, representing 18 species. Overall, C. neoformans showed a higher environmental prevalence than that of C. gattii which was not found in the avian habitats. Apart from their arboreal habitat, both species were demonstrated in soil and air in close vicinity of their tree hosts. In addition, C. neoformans showed a strong association with desiccated avian excreta. An overwhelming number of C. neoformans strains belonged to genotype AFLP1/VNI, var. grubii (serotype A), whereas C. gattii strains were genotype AFLP4/VGI, serotype B. All of the environmental strains of C. neoformans and C. gattii were mating type α (MATα). Contrary to the Australian experience, Eucalyptus trees were among the epidemiologically least important and, therefore, the hypothesis of global spread of C. gattii through Australian export of infected Eucalyptus seeds is rebutted. Reference is made to long-term colonization of an abandoned, old timber beam of sal wood (Shorea robusta) by a melanin positive (Mel(+)) variant of Cryptococcus laurentii that was pathogenic to laboratory mice.     

Melanization of Cryptococcus neoformans reduces its susceptibility to the antimicrobial effects of silver nitrate.

Cryptococcus neoformans is a human pathogenic fungus that is frequently found in avian feces and Eucalyptus trees. There is evidence that C. neoformans can make a melanin-like pigment in pigeon excreta, a major natural environmental niche. Silver nitrate, AgNO3, is a highly toxic compound for bacteria and fungi. In this study we investigated the effects of melanin production by C. neoformans on the susceptibility of this fungus to AgNO3. C. neoformans was grown in media with and without the melanin precursor, L-dopa, for various times and susceptibility to AgNO3 was determined by measuring percentage of survival after incubation in AgNO3. There was an inverse association between time allowed for melanization and susceptibility to Ag+. Addition of melanin particles to a suspension of non-melanized C. neoformans cells reduced their susceptibility to AgNO3, consistent with metal ion chelation by melanin. Binding of Ag+ to melanin particles was demonstrated by atomic absorption spectroscopy. The results indicate that melanization of C. neoformans reduces susceptibility to a toxic heavy metal. This suggests a role for melanin in environmental protection against heavy metal toxicity.     

Interleukin-17 is not required for classical macrophage activation in a pulmonary mouse model of Cryptococcus neoformans infection

Cryptococcus neoformans is an opportunistic fungal pathogen that causes disease in individuals with suppressed cell-mediated immunity. Recent studies in our laboratory have shown that increases in pulmonary Th1-type and interleukin-17A (IL-17A) cytokine production, classical macrophage activation, and sterilizing immunity are elicited in response to infection with a gamma interferon (IFN-γ)-producing C. neoformans strain, H99γ. IL-17A-treated macrophages, compared to IL-4-treated macrophages, have been demonstrated to exhibit increased microbicidal activity in vitro, a characteristic consistent with classical macrophage activation. The purpose of these studies is to determine the role of IL-17A in the induction of classically activated macrophages following infection with C. neoformans. Immunohistochemistry and real-time PCR were used to characterize the macrophage activation phenotype in lung tissues of mice treated with isotype control or anti-IL-17A antibodies and given an experimental pulmonary infection with C. neoformans strain H99γ. The pulmonary fungal burden was resolved, albeit more slowly, in mice depleted of IL-17A compared to the fungal burden in isotype control-treated mice. Nonetheless, no difference in classical macrophage activation was observed in IL-17A-depleted mice. Similarly, classical macrophage activation was evident in mice deficient in IL-17A or the IL-17 receptor A, which mediates IL-17A signaling, following pulmonary infection with wild-type C. neoformans strain H99 or H99γ. These studies suggest that IL-17A may play a role in the early immune response to C. neoformans but is not required for classical macrophage activation in mice experimentally infected with C. neoformans.     

In vivo complement activation and binding of C3 to encapsulated Cryptococcus neoformans.

Tissues from mice infected with Cryptococcus neoformans were examined by immunofluorescence to determine the extent of deposition of complement component C3 on encapsulated cryptococci. The relative percentages of cryptococci in each tissue having readily visible C3 were greatest for liver and lung tissues, with the kidney tissue having the next highest percentage and the spleen having the lowest percentage. Binding of C3 fragments to cryptococci in brain tissue was essentially absent.     

Histoplasma capsulatum synthesizes melanin-like pigments in vitro and during mammalian infection

Melanin is made by several important pathogenic fungi and has been implicated in the pathogenesis of a number of fungal infections. This study investigated whether the thermally dimorphic fungal pathogen Histoplasma capsulatum var. capsulatum produced melanin or melanin-like compounds in vitro and during infection. Growth of H. capsulatum mycelia in chemically defined minimal medium produced pigmented conidia. Growth of H. capsulatum yeast in chemically defined minimal medium with L-3,4-dihydroxyphenylalanine (DOPA) or (-)-epinephrine produced pigmented cells. Treatment of the pigmented cells with proteolytic enzymes, denaturant, and hot concentrated acid yielded dark particles that were similar in size and shape to their respective propagules. Melanin-binding monoclonal antibodies (MAb) labeled pigmented conidia, yeast, and the isolated particles as determined by immunofluorescence microscopy. Electron spin resonance spectroscopy revealed that pigmented yeast cells and particles derived from pigmented cells were stable free radicals consistent with their identification as melanins. Tissues from mice infected with H. capsulatum and from biopsy specimens from a patient with histoplasmosis contained fungal cells that were labeled by melanin-binding MAb. Digestion of infected mouse tissues yielded dark particles that reacted with the melanin-binding MAb and were similar in appearance to H. capsulatum yeast cells. Additionally, sera from infected mice contained antibodies that bound melanin particles. Phenoloxidase activity capable of synthesizing melanin from L-DOPA was detected in cytoplasmic yeast cell extracts. These findings indicate that H. capsulatum conidia and yeast can produce melanin or melanin-like compounds in vitro and that yeast cells can synthesize pigment in vivo. Since melanin is an important virulence factor in other pathogenic fungi, this pigment may have a similar role to play in the pathogenesis of histoplasmosis.