The Transcriptional Response of Cryptococcus neoformans to Ingestion by Acanthamoeba castellanii and Macrophages Provides Insights into the Evolutionary Adaptation to the Mammalian Host

Derengowski, Lorena da Silveira; Paes, Hugo Costa; Albuquerque, Patrícia; Tavares, Aldo Henrique; Fernandes, Larissa; Silva-Pereira, Ildinete; Casadevall, Arturo

doi:10.1128/ec.00073-13

Cited by 84 publications

(78 citation statements)

References 63 publications

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“…These challenges are counteracted by equally powerful mechanisms on the yeast side. Upon ingestion, the yeast upregulates gene expression of oxidative stress enzymes (80), starvation responses, and the autophagic machinery (81). These collaborate with the antioxidant properties of fungal melanin and the capsule to efficiently protect the fungus from host attack.…”

Section: The Intracellular Life Cycle Of Cryptococcus Neoformansmentioning

confidence: 99%

The Intracellular Life ofCryptococcus neoformans

Coelho

Bocca

Casadevall

2014

Annu. Rev. Pathol. Mech. Dis.

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126

108

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Cryptococcus neoformans is a fungal pathogen with worldwide distribution. Serological studies of human populations show a high prevalence of human infection, which rarely progresses to disease in immunocompetent hosts. However, decreased host immunity places individuals at high risk for cryptococcal disease. The disease can result from acute infection or reactivation of latent infection, in which yeasts within granulomas and host macrophages emerge to cause disease. In this review, we summarize what is known about the cellular recognition, ingestion, and killing of C. neoformans and discuss the unique and remarkable features of its intracellular life, including the proposed mechanisms for fungal persistence and killing in phagocytic cells.

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Section: The Intracellular Life Cycle Of Cryptococcus Neoformansmentioning

confidence: 99%

The Intracellular Life ofCryptococcus neoformans

Coelho

Bocca

Casadevall

2014

Annu. Rev. Pathol. Mech. Dis.

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126

108

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“…The natural environment for Cryptococcus species is soil, which is often rich in predatory amoebae that use phagocytosis to engulf cryptococcal spores as a food source. Thus, a compelling hypothesis is that cryptococci have evolved mechanisms to avoid amoebal predation and that these survival attributes are therefore transferable when spores find their way into a vertebrate host (Steenbergen et al 2001;Derengowski et al 2013). The bacterial organism that causes legionnaires disease, Legionella pneumophilia, is thought to have evolved in a similar way (Smith and May 2013).…”

Section: Cryptococcus Neoformans/gattiimentioning

confidence: 99%

Fungal Pathogens: Survival and Replication within Macrophages

Gilbert¹,

Wheeler²,

May³

2014

Cold Spring Harb Perspect Med

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The innate immune system is a critical line of defense against pathogenic fungi. Macrophages act at an early stage of infection, detecting and phagocytizing infectious propagules. To avoid killing at this stage, fungal pathogens use diverse strategies ranging from evasion of uptake to intracellular parasitism. This article will discuss five of the most important human fungal pathogens (Candida albicans, Aspergillus fumigatus, Cryptococcus neoformans, Coccidiodes immitis, and Histoplasma capsulatum) and consider the strategies and virulence factors adopted by each to survive and replicate within macrophages. Macrophages are phagocytic immune cells, derived from monocyte differentiation, and are involved in the first line of defense during microbial invasion. They recognize, engulf, and destroy foreign bodies, such as pathogenic organisms before then presenting antigen to coordinate subsequent adaptive immunity (Fig. 1). Macrophages are found in almost all tissues and are particularly abundant at mucosal surfaces in which pathogen exposure is naturally higher, such as the alveoli. They are able to engulf particles ranging from 0.5 mm (such as bacteria) to .5 mm (such as yeast), although an upper size limit does exist (Chen et al. 1997;Krombach et al. 1997;Kinchen and Ravichandran 2008).Macrophages express a wide range of different receptors able to detect nonself particles. These receptors can be split into two groups: opsonic and nonopsonic. Opsonic receptors, such as the Fc receptor or complement receptor families (Flannagan et al. 2012), are able to recognize particles coated (opsonized) in antibody or complement (Johnston and May 2013). In contrast, nonopsonic receptors are pathogen recognition receptors (PRRs) that directly detect pathogen-associated molecular patterns (PAMPs) on the surface of microorganisms. Macrophages are heterogeneous in the receptors they express, and can change this repertoire when differentiating into different subtypes. For instance, the nonopsonic Dectin-1 receptor Once engulfment has been achieved, the macrophage must then digest the pathogen, now segregated into a phagosome (digesting vesicle). To complete the digestion, the phagosome must mature via the fusion of early and late stage endosomes and ultimately fuse with the lysosome, generating a phagolysosome (Kinchen and Ravichandran 2008). The phagolysosome uses vacuolar ATPases to pump H þ ions into the phagolysosome, reducing the pH. Once the pH is reduced sufficiently, acid-dependent proteases, such as cathepsin D, are activated to degrade the pathogen (Fig. 1) (Kinchen and Ravichandran 2008).Many human fungal pathogens have developed strategies to resist phagocytic attack, thus facilitating pathogenicity. The field of fungal research has exploded over the last three decades because of the increase in fungal-related illnesses that appears to correlate with the AIDS pandemic and more effective immunosuppressive medicines . Macrophages have been shown to play a role in resistance to disseminated candidiasis, although they are ...

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“…Indeed, C. neoformans gene expression following ingestion by amoeba and macrophages reveals similar patterns of gene expression (39). In fact, multiple stress gene response elements are linked to Cryptococcus -specific environmental sensors and function through common kinase signaling pathways.…”

Section: In Vivo Intracellular Adaptationmentioning

confidence: 99%

Macrophage–Cryptococcus Interactions: An Update

Mansour

Reedy

Tam

et al. 2013

Curr Fungal Infect Rep

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Cryptococcus species are fungal pathogens that are a leading cause of mortality. Initial inoculation is through the pulmonary route and, if disseminated, results in severe invasive infection including meningoencephalitis. Macrophages are the dominant phagocytic cell that interacts with Cryptococcus. Emerging theories suggest that Cryptococcus microevolution in macrophages is linked to survival and virulence within the host. In addition, Cryptococcus elaborates virulence factors as well as usurps host machinery to establish macrophage activation states that are permissive to intracellular survival and replication. In this review, we provide an update of the recent findings pertaining to macrophage interaction with Cryptococcus and focus on new avenues for biomedical research.

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The Transcriptional Response of Cryptococcus neoformans to Ingestion by Acanthamoeba castellanii and Macrophages Provides Insights into the Evolutionary Adaptation to the Mammalian Host

Cited by 84 publications

References 63 publications

The Intracellular Life ofCryptococcus neoformans

The Intracellular Life ofCryptococcus neoformans

Fungal Pathogens: Survival and Replication within Macrophages

Macrophage–Cryptococcus Interactions: An Update

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