scholarly journals Phosphate Induces a Morphological Shift that Enhances Vascular Dissemination of Cryptococcus neoformans

2020 ◽  
Author(s):  
Steven T. Denham ◽  
Brianna Brammer ◽  
Krystal Y. Chung ◽  
Morgan A. Wambaugh ◽  
Joseph Bednarek ◽  
...  
Keyword(s):  
Cryptococcus Neoformans ◽  
Ex Vivo ◽  
Cell Formation ◽  
Cell Interaction ◽  
Phenotypic Heterogeneity ◽  
Small Cells ◽  
Organ Uptake ◽  
Size Heterogeneity ◽  
Mammalian Infection

SUMMARYPhenotypic heterogeneity is a common microbial strategy to improves fitness in fluctuating environments. The fungal pathogen Cryptococcus neoformans exhibits dramatic size heterogeneity: it varies from 2-100 μm in diameter during mammalian infection. Following pulmonary invasion, cells enlarge to >30 μm diameter, then decrease over disease course. Extrapulmonary organs, particularly the brain, contain uniformly small cells, implying that that morphotype is important for dissemination. To test this hypothesis, we isolated size-based ex vivo cell populations directly from mouse lungs. Small ex vivo cells readily disseminated compared with other ex vivo populations, small beads, and in vitro-grown small cells. The latter two groups are close in size to small ex vivo cells, suggesting that while size is important, fungal-specific elements also drive extrapulmonary dissemination. We found that mannose exposure facilitates host cell interaction and organ uptake. Phosphate induces small cell formation. This demonstrates how environmental cues shift phenotypic heterogeneity to drive pathogenesis.

scholarly journals Apoptotic cells induce CD103 expression and immunoregulatory function in myeloid dendritic cell precursors through integrin αv and TGF-β activation

2020 ◽  
Author(s):  
Ailiang Zhang ◽  
Helena Paidassi ◽  
Adam Lacy-Hulbert ◽  
John Savill
Keyword(s):  
Ex Vivo ◽  
Apoptotic Cell ◽  
Cell Interaction ◽  
Apoptotic Cells ◽  
Intestinal Epithelial ◽  
Mesenteric Lymph Nodes ◽  
Murine Bone Marrow ◽  
Enhanced Expression ◽  
Tgf Β1

In the mammalian gut CD103+ve myeloid DCs are known to suppress inflammation threatened by luminal bacteria, but stimuli driving DC precursor differentiation towards this beneficial phenotype are incompletely understood. We isolated CD11+ve DCs from mesenteric lymph nodes (MLNs) of healthy mice; CD103+ve DCs were 8-24 folds more likely than CD103-ve DCs to exhibit extensive of prior phagocytosis of apoptotic intestinal epithelial cells. However, CD103+ve and CD103-ve MLN DCs exhibited similar ex vivo capacity to ingest apoptotic cells, indicating that apoptotic cells might drive immature DC differentiation towards the CD103+ve phenotype. When cultured with apoptotic cells, myeloid DC precursors isolated from murine bone marrow and characterised as lineage-ve CD103-ve, displayed enhanced expression of CD103 and β8 integrin and acquired increased capacity to induce Tregs after 7d in vitro. However, DC precursors isolated from α v -tie2 mice lacking α v integrins in the myeloid line exhibited reduced binding of apoptotic cells and complete deficiency in the capacity of apoptotic cells and/or latent TGF-β1 to enhance CD103 expression in culture, whereas active TGF-β1 increased DC precursor CD103 expression irrespective of α v expression. Fluorescence microscopy revealed clustering of α v integrin chains and latent TGF-β1 at points of contact between DC precursors and apoptotic cells. We conclude that myeloid DC precursors can deploy α v integrin to orchestrate binding of apoptotic cells, activation of latent TGF-β1 and acquisition of the immunoregulatory CD103+ve β8+ve DC phenotype. This implies that a hitherto unrecognised consequence of apoptotic cell interaction with myeloid phagocytes is programming that prevents inflammation.

scholarly journals Titan cells formation inCryptococcus neoformansis finely tuned by environmental conditions and modulated by positive and negative genetic regulators

2017 ◽  
Author(s):  
Benjamin Hommel ◽  
Liliane Mukaremera ◽  
Radames J. B. Cordero ◽  
Carolina Coelho ◽  
Christopher A. Desjardins ◽  
...  
Keyword(s):  
Cell Wall ◽  
Quorum Sensing ◽  
Cryptococcus Neoformans ◽  
Cell Size ◽  
Incubation Medium ◽  
Genetic Factors ◽  
Morphological Changes ◽  
Cell Formation ◽  
Low Ph

AbstractThe pathogenic fungusCryptococcus neoformansexhibits morphological changes in cell size during lung infection, producing both typical size 5 to 7 µm cells and large titan cells (> 10 µm and up to 100 µm). We found and optimizedin vitroconditions that produce titan cells in order to identify the ancestry of titan cells, the environmental determinants, and the key gene regulators of titan cell formation. Titan cells generatedin vitroharbor the main characteristics of titan cells producedin vivoincluding their large cell size (>10 µm), polyploidy with a single nucleus, large vacuole, dense capsule, and thick cell wall. Here we show titan cells derived from the enlargement of progenitor cells in the population independent of yeast growth rate. Change in the incubation medium, hypoxia, nutrient starvation and low pH were the main factors that trigger titan cell formation, while quorum sensing factors like the initial inoculum concentration, pantothenic acid, and the quorum sensing peptide Qsp1p also impacted titan cell formation. Inhibition of ergosterol, protein and nucleic acid biosynthesis altered titan cell formation, as did serum, phospholipids and anti-capsular antibodies in our settings. We explored genetic factors important for titan cell formation using three approaches. Using H99-derivative strains with natural genetic differences, we showed that titan cell formation was dependent onLMP1andSGF29genes. By screening a gene deletion collection, we also confirmed thatGPR4/5-RIM101, andCAC1genes were required to generate titan cells and that thePKR1,TSP2,USV101genes negatively regulated titan cell formation. Furthermore, analysis of spontaneous Pkr1 loss-of-function clinical isolates confirmed the important role of the Pkr1 protein as a negative regulator of titan cell formation. Through development of a standardized and robustin vitroassay, our results provide new insights into titan cell biogenesis with the identification of multiple important factors/pathways.Author SummaryCryptococcus neoformansis a yeast that is capable of morphological change upon interaction with the host. Particularly, in the lungs of infected mice, a subpopulation of yeast enlarges, producing cells up to 100 µm in cell body diameter – referred to as titan cells. Along with their large size, the titan cells have other unique characteristics such as thickened cell wall, dense capsule, polyploidization, large vacuole with peripheral nucleus and cellular organelles. The generation of a large number of such cells outside the lungs of mice has been described but was not reproducible nor standardized. Here we report standardized, reproducible, robust conditions for generation of titan cells and explored the environmental and genetic factors underlying the genesis of these cells. We showed that titan cells were generated upon stresses such as change in the incubation medium, nutrient deprivation, hypoxia and low pH. Using collections of well characterized reference strains and clinical isolates, we validated with our model that the cAMP/PKA/Rim101 pathway is a major genetic determinant of titan cell formation. This study opens the way for a more comprehensive picture of the ontology of morphological changes inCryptococcus neoformansand its impact on pathobiology of this deadly pathogen.

scholarly journals Host environmental conditions induce small fungal cell size and alter population heterogeneity in Cryptococcus neoformans

2020 ◽  
Author(s):  
Xin Zhou ◽  
Hanna Zafar ◽  
Poppy Sephton-Clark ◽  
Sally H. Mohamed ◽  
Ambre Chapuis ◽  
...  
Keyword(s):  
Drug Resistance ◽  
Cryptococcus Neoformans ◽  
Lipid Membrane ◽  
Population Heterogeneity ◽  
Clinical Isolates ◽  
Yeast Cells ◽  
Small Cells ◽  
Fungal Cell

AbstractFungal morphology significantly impacts the host response. Filamentation and tissue penetration by Candida and Aspergillus species are essential for virulence, while growth as a yeast allows the thermal dimorphic fungi Coccidiodes, Histoplasma, and Talaromyces to reside inside phagocytes and disseminate. The basidiomycete Cryptococcus neoformans exhibits an unusual yeast-to-titan transition thought to enhance pathogenicity by increasing fungal survival in the host lung and dissemination to the central nervous system. In a common laboratory strain (H99), in vitro and in vivo titan induction yields a heterogenous population including >10 μm titan cells, 5-7 μm yeast cells and 2-4 μm titanides. Previous reports have shown that titan cells are associated with enhanced virulence and the generation of aneuploid cells that facilitate stress adaptation and drug resistance, while small (>10 μm) cells are associated with increased dissemination. However, the relationship between titan cells, small cells, and titanides remains unclear. Here, we characterize titanides and small cells in H99 and three clinical isolates and show that titanides share the lipid membrane order of their titan mothers and the G0 quiescent-like DNA staining of mating spores. In addition, we show that both titanizing and non-titanizing isolates exhibit altered capsule structure and PAMP exposure over time during in vitro culture, and generate aneuploidy in vivo.Author summaryThe human fungal pathogen Cryptococcus neoformans causes 200,000 HIV-associated deaths each year. In the lung, Cryptococcus makes an unusual yeast-to-titan morphological switch that contributes to disease development by altering immune polarization and introducing aneuploidy underlying host stress and drug resistance. Specifically, a proportion of 5 um haploid yeast endoreduplicate and swell, converting to large (> 10 um) polyploid titan cells that can then produce genetically distinct daughter cells. We recently developed an in vitro protocol for inducing large titan cells and additionally observed a novel small “titanide” cell type. Here we investigate the nature and origin of these small cells, demonstrating that they emerge during both in vitro and in vivo mouse-passaged titan induction in the well characterised lab strain H99 and are also apparent in a titanizing clinical isolate, Zc8. We show that these titanide cells share features with titan mothers (lipid order) and with spores produced during heterothalic mating. Finally, we show that the capacity of clinical isolates to produce both titan and titanide cells impacts aneuploidy and the emergence of drug resistance in vivo.

scholarly journals Serial Passage of Cryptococcus neoformans in Galleria mellonella Results in Increased Capsule and Intracellular Replication in Hemocytes, but Not Increased Resistance to Hydrogen Peroxide

Pathogens ◽  
2020 ◽  
Vol 9 (9) ◽  
pp. 732 ◽  
Author(s):  
Muhammad Fariz Ali ◽  
Stephen M. Tansie ◽  
John R. Shahan ◽  
Rebecca L. Seipelt-Thiemann ◽  
Erin E. McClelland
Keyword(s):  
Hydrogen Peroxide ◽  
Cryptococcus Neoformans ◽  
Galleria Mellonella ◽  
Ex Vivo ◽  
Histopathological Examination ◽  
Serial Passage ◽  
Infection Model ◽  
Hydrogen Peroxide Production ◽  
Species Response

To gain insight into how pathogens adapt to new hosts, Cryptococcus neoformans (H99W) was serially passaged in Galleria mellonella. The phenotypic characteristics of the passaged strain (P15) and H99W were evaluated. P15 grew faster in hemolymph than H99W, in vitro and in vivo, suggesting that adaptation had occurred. However, P15 was more susceptible to hydrogen peroxide in vitro, killed fewer mouse macrophages, and had less fungal burden in human ex vivo macrophages than H99W. Analysis of gene expression changes during Galleria infection showed only a few different genes involved in the reactive oxygen species response. As P15 sheds more GXM than H99W, P15 may have adapted by downregulating hemocyte hydrogen peroxide production, possibly through increased capsular glucuronoxylomannan (GXM) shedding. Hemocytes infected with P15 produced less hydrogen peroxide, and hydrogen peroxide production in response to GXM-shedding mutants was correlated with shed GXM. Histopathological examination of infected larvae showed increased numbers and sizes of immune nodules for P15 compared to H99W, suggesting an enhanced, but functionally defective, response to P15. These results could explain why this infection model does not always correlate with murine models. Overall, C. neoformans’ serial passage in G. mellonella resulted in a better understanding of how this yeast evolves under selection.

scholarly journals Human IgM Inhibits the Formation of Titan-Like Cells in Cryptococcus neoformans

2020 ◽  
Vol 88 (4) ◽  
Author(s):  
Nuria Trevijano-Contador ◽  
Kaila M. Pianalto ◽  
Connie B. Nichols ◽  
Oscar Zaragoza ◽  
J. Andrew Alspaugh ◽  
...  
Keyword(s):  
Cell Wall ◽  
Stress Response ◽  
B Cell ◽  
Cryptococcus Neoformans ◽  
Cell Formation ◽  
Transcriptional Analysis ◽  
Content Type ◽  
Human Immunoglobulins ◽  
Genes Encoding

ABSTRACT Human studies have shown associations between cryptococcal meningitis and reduced IgM memory B cell levels, and studies in IgM- and/or B cell-deficient mice have demonstrated increased Cryptococcus neoformans dissemination from lungs to brain. Since immunoglobulins are part of the immune milieu that C. neoformans confronts in a human host, and its ability to form titan cells is an important virulence mechanism, we determined the effect of human immunoglobulins on C. neoformans titan cell formation in vitro. (i) Fluorescence microscopy showed normal human IgG and IgM bind C. neoformans. (ii) C. neoformans grown in titan cell-inducing medium with IgM, not IgG, inhibited titan-like cell formation. (iii) Absorption of IgM with laminarin or curdlan (branched and linear 1-3-beta-d-glucans, respectively) decreased this effect. (iv) Transmission electron microscopy revealed that cells grown with IgM had small capsules and unique features not seen with cells grown with IgG. (v) Comparative transcriptional analysis of cell wall, capsule, and stress response genes showed that C. neoformans grown with IgM, not IgG or phosphate-buffered saline (PBS), had decreased expression of chitin synthetase, CHS1, CHS2, and CHS8, and genes encoding cell wall carbohydrate synthetases α-1-3-glucan (AGS1) and β-1,3-glucan (FKS1). IgM also decreased expression of RIM101 and HOG1, genes encoding central regulators of C. neoformans stress response pathways and cell morphogenesis. Our data show human IgM affects C. neoformans morphology in vitro and suggest that the hypothesis that human immunoglobulins may affect C. neoformans virulence in vivo warrants further investigation.

scholarly journals Melanization of Cryptococcus neoformans and Histoplasma capsulatum Reduces Their Susceptibilities to Amphotericin B and Caspofungin

2002 ◽  
Vol 46 (11) ◽  
pp. 3394-3400 ◽  
Author(s):  
David van Duin ◽  
Arturo Casadevall ◽  
Joshua D. Nosanchuk
Keyword(s):  
Cryptococcus Neoformans ◽  
Amphotericin B ◽  
Fungal Pathogens ◽  
Histoplasma Capsulatum ◽  
Clinical Laboratory ◽  
National Committee ◽  
Broth Macrodilution ◽  
Mammalian Infection

ABSTRACT The fungal pathogens Cryptococcus neoformans and Histoplasma capsulatum produce melanin-like pigments in the presence of l-dopa in vitro and during mammalian infection. We investigated whether melanization affected the susceptibilities of the fungi to amphotericin B, caspofungin, fluconazole, itraconazole, or flucytosine (5FC). Using the standard macrodilution MIC protocol (the M27A protocol) of the National Committee for Clinical Laboratory Standards for yeast, we found no difference in the susceptibilities of melanized and nonmelanized C. neoformans and H. capsulatum isolates. Killing assays demonstrated that melanization reduced the susceptibilities of both fungi to amphotericin B and caspofungin. Laccase-deficient C. neoformans cells grown with l-dopa were significantly more susceptible than congenic melanin-producing yeast to killing by amphotericin B or caspofungin. Preincubation of amphotericin B or caspofungin with melanins decreased their antifungal activities. Elemental analysis of melanins incubated with amphotericin B or caspofungin revealed an alteration in the C:N ratios of the melanins, which indicated binding of these drugs by the melanins. In contrast, incubation of fluconazole, itraconazole, or 5FC with melanins did not significantly affect the antifungal efficacies of the drugs or the chemical composition of the melanins. The results suggest a potential explanation for the inefficacy of caspofungin against C. neoformans in vivo, despite activity in vitro. Furthermore, the results indicate that fungal melanins protect C. neoformans and H. capsulatum from the activities of amphotericin B and caspofungin and that this protection is not demonstrable by standard broth macrodilution assays.

scholarly journals The transcription factor Pdr802 regulates Titan cell formation, quorum sensing, and pathogenicity of Cryptococcus neoformans

2020 ◽  
Author(s):  
Julia C. V. Reuwsaat ◽  
Daniel P. Agustinho ◽  
Heryk Motta ◽  
Holly Brown ◽  
Andrew L. Chang ◽  
...  
Keyword(s):  
Transcription Factor ◽  
Quorum Sensing ◽  
Cryptococcus Neoformans ◽  
Cell Formation ◽  
Negative Regulator ◽  
Pathogenic Yeast ◽  
Opportunistic Fungal Pathogen ◽  
The Brain

ABSTRACTCryptococcus neoformans is a ubiquitous, opportunistic fungal pathogen that kills almost 200,000 people worldwide each year. It is acquired when mammalian hosts inhale the infectious propagules; these are deposited in the lung and, in the context of immunocompromise, may disseminate to the brain and cause lethal meningoencephalitis. Once inside the host, C. neoformans undergoes a variety of adaptive processes, including secretion of virulence factors, expansion of a polysaccharide capsule that impedes phagocytosis, and the production of giant (Titan) cells. The transcription factor Pdr802 is one regulator of these responses to the host environment. Expression of the corresponding gene is highly induced under host-like conditions in vitro and is critical for C. neoformans dissemination and virulence in a mouse model of infection. Direct targets of Pdr802 include the quorum sensing proteins Pqp1, Opt1 and Liv3; the transcription factors Stb4, Zfc3 and Bzp4, which regulate cryptococcal brain infectivity and capsule thickness; the calcineurin targets Had1 and Crz1, important for cell wall remodeling and C. neoformans virulence; and additional genes related to resistance to host temperature and oxidative stress, and to urease activity. Notably, cryptococci engineered to lack Pdr802 showed a dramatic increase in Titan cells, which are not phagocytosed and have diminished ability to directly cross biological barriers. This explains the limited dissemination of pdr802 mutant cells to the central nervous system and the consequently reduced virulence of this strain. The role of Pdr802 as a negative regulator of Titan cell formation is thus critical for cryptococcal pathogenicity.IMPORTANCEThe pathogenic yeast Cryptococcus neoformans presents a worldwide threat to human health, especially in the context of immunocompromise, and current antifungal therapy is hindered by cost, limited availability, and inadequate efficacy. After the infectious particle is inhaled, C. neoformans initiates a complex transcriptional program that integrates cellular responses and enables adaptation to the host lung environment. Here we describe the role of the transcription factor Pdr802 in the response to host conditions and its impact on C. neoformans virulence. We identified direct targets of Pdr802 and also discovered that it regulates cellular features that influence movement of this pathogen from the lung to the brain, where it causes fatal disease. These findings advance our understanding of a serious disease.

scholarly journals Cryptococcus neoformanscan form titan-like cellsin vitroin response to multiple signals that require the activation of several transduction pathways

2017 ◽  
Author(s):  
Nuria Trevijano-Contador ◽  
Suelen A. Rossi ◽  
Haroldo Cesar de Oliveira ◽  
Irene Llorente ◽  
Inês Correia ◽  
...  
Keyword(s):  
Gene Expression ◽  
Quorum Sensing ◽  
Signaling Pathways ◽  
Cryptococcus Neoformans ◽  
Gene Expression Profile ◽  
Cell Body ◽  
Expression Profile ◽  
Cell Formation ◽  
Pathogenic Yeast

ABSTRACTCryptococcus neoformansis an encapsulated pathogenic yeast that can change the size of the cells during infection. In particular, this process can occur by enlarging the size of the capsule without modifying the size of the cell body, or by increasing the diameter of the cell body, which is normally accompanied by an increase of the capsule too. This last process leads to the formation of cells of an abnormal enlarged size denominated titan cells. Previous works characterized titan cell formation during pulmonary infection but research on this topic has been hampered due to the difficulty to obtain themin vitro. In this work, we describein vitroconditions (low nutrient, serum supplemented medium at neutral pH) that promote the transition from regular to titan-like cells. Moreover, addition of azide and static incubation of the cultures in a CO2enriched atmosphere favored cellular enlargement. This transition occurred at low cell densities, suggesting that the process was regulated by quorum sensing molecules and was independent of the cryptococcal serotype/species. Transition to titan-like cell formation was impaired by pharmacological inhibition of PKC and TOR signaling pathways. Mutants affected in capsule synthesis did not form titan-like cells. Analysis of the gene expression profile in titan-like cells indicated that they overexpressed membrane proteins and transporters, being the gene encoding the Cig1 mannoprotein involved in iron uptake from heme groups the gene most differentially expressed compared to cells of regular size. We also investigated the gene expression profile of titan-like cells isolated from mice, and observed that during infection these cells mainly overexpressed genes related to metabolism and respiration. In summary, our work provides a new alternative method to investigate titan cell formation devoid the bioethical problems that involve animal experimentation.AUTHOR SUMMARYCryptococcus neoformansis a fungal pathogen that has a significant incidence in HIV+ patients in particular, in Subsaharian Africa, Asia and South America. This yeast poses an excellent model to investigate fungal virulence because it develops many strategies to adapt to the host and evade the immune response. One of the adaptation mechanisms involves the formation of Titan Cells, which are yeast of an abnormal large size. However, research on these cells has been limited to in vivo studies (mainly in mice) because they were not reproducibly found in vitro. In this work, we describe several conditions that induce the appearance of cells that mimic titan cells, and that we denominated as titan-like cells. The main factor that induced titan-like cells was the addition of serum to nutrient limited media. This has allowed to easily performing new approaches to characterize several signaling pathways involved in their development. We found that the formation of these cells is regulated by quorum sensing molecules, and that pathways such as PKC and TOR kinases regulate the process of cellular enlargement. We have also to perform transcriptomic analysis, which led to the identification of new genes that could be involved in the process. This work will open different research lines that will contribute to the elucidation of the role of these cells during infection and on the development of cryptococcal disease.

scholarly journals Cryptococcal Genotype Influences Immunologic Response and Human Clinical Outcome after Meningitis

mBio ◽  
2012 ◽  
Vol 3 (5) ◽  
Author(s):  
Darin L. Wiesner ◽  
Oleksandr Moskalenko ◽  
Jennifer M. Corcoran ◽  
Tami McDonald ◽  
Melissa A. Rolfes ◽  
...  
Keyword(s):  
Cryptococcus Neoformans ◽  
Ex Vivo ◽  
Human Infection ◽  
Fungal Strain ◽  
Sub Saharan Africa ◽  
Strain Variation ◽  
Content Type ◽  
Group 3 ◽  
Group 1

ABSTRACTIn sub-Saharan Africa, cryptococcal meningitis (CM) continues to be a predominant cause of AIDS-related mortality. Understanding virulence and improving clinical treatments remain important. To characterize the role of the fungal strain genotype in clinical disease, we analyzed 140Cryptococcusisolates from 111 Ugandans with AIDS and CM. Isolates consisted of 107 nonredundantCryptococcus neoformansvar.grubiistrains and 8C. neoformansvar.grubii/neoformanshybrid strains. Multilocus sequence typing (MLST) was used to characterize genotypes, yielding 15 sequence types and 4 clonal clusters. The largest clonal cluster consisted of 74 isolates. The results of Burst and phylogenetic analysis suggested that theC. neoformansvar.grubiistrains could be separated into three nonredundant evolutionary groups (Burst group 1 to group 3). Patient mortality was differentially associated with the different evolutionary groups (P= 0.04), with the highest mortality observed among Burst group 1, Burst group 2, and hybrid strains. Compared to Burst group 3 strains, Burst group 1 strains were associated with higher mortality (P= 0.02), exhibited increased capsule shedding (P= 0.02), and elicited a more pronounced Th2response duringex vivocytokine release assays with strain-specific capsule stimulation (P= 0.02). The results of these analyses suggest that cryptococcal strain variation can be an important determinant of human immune responses and mortality.IMPORTANCECryptococcus neoformansis a common life-threatening human fungal pathogen that is responsible for an estimated 1 million cases of meningitis in HIV-infected patients annually. Virulence factors that are important in human disease have been identified, yet the impacts of the fungal strain genotype on virulence and outcomes of human infection remain poorly understood. Using an analysis of strain variation based onin vitroassays and clinical data from Ugandans living with AIDS and cryptococcal infection, we report that strain genotype predicts the type of immune response and mortality risk. These studies suggest that knowledge of the strain genotype during human infections could be used to predict disease outcomes and lead to improved treatment approaches aimed at targeting the specific combination of pathogen virulence and host response.

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