Primary immunodeficiency and chronic mucocutaneous candidiasis: pathophysiological, diagnostic, and therapeutic approaches.

Egri, Natalia; Esteve‐Solé, Ana; Deyà‐Martínez, Àngela; Landazuri, Iñaki Ortiz de; Vlagea, Alexandru; García, Ainhoa; Cardozo, Celia; García-Vidal, Carolina; Bartolomé, Clara San; Español-Rego, Marta; Luo, Yiyi; Bosch‐Amate, Xavier; Ferrando, Juan; Yagüe, Jordi; Juan, Manel; Alsina, Laia

doi:10.15586/aei.v49i1.20

Cited by 15 publications

(8 citation statements)

References 43 publications

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“…Finally, AIDS is differentiated from CMCC by positive HIV serology, reduced CD4+ T-cell count, and occurrence of opportunistic infections. 6 , 7 …”

Section: Discussionmentioning

confidence: 99%

Case for diagnosis. Disseminated erythematous and scaly plaques: chronic mucocutaneous candidiasis

Abreu,

França,

Marcelo Júnior

et al. 2023

Anais Brasileiros de Dermatologia

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“…Finally, AIDS is differentiated from CMCC by positive HIV serology, reduced CD4+ T-cell count, and occurrence of opportunistic infections. 6 , 7 …”

Section: Discussionmentioning

confidence: 99%

Case for diagnosis. Disseminated erythematous and scaly plaques: chronic mucocutaneous candidiasis

Abreu,

França,

Marcelo Júnior

et al. 2023

Anais Brasileiros de Dermatologia

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“…Defective IL - 17 responses have been found to underlie most cases of mucocutaneous candidiasis, but in immunocompetent individuals intact Th17 responses are protective against infection despite colonization of skin and other surfaces [ 106 ]. Identification of the underlying inborn error of immunity is important to decide on therapeutic options since azole resistance is not uncommon [ 107 ]. STAT1 gain of function mutations have been found to result in impaired STAT3 responses resulting in mucocutaneous candidiasis [ 108 ].…”

Section: Spectrum Of Infectionsmentioning

confidence: 99%

Infections in Inborn Errors of Immunity with Combined Immune Deficiency: A Review

George

Govindaraj

2023

Pathogens

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Enhanced susceptibility to microbes, often resulting in severe, intractable and frequent infections due to usually innocuous organisms at uncommon sites, is the most striking feature in individuals with an inborn error of immunity. In this narrative review, based on the International Union of Immunological Societies’ 2022 (IUIS 2022) Update on phenotypic classification of human inborn errors of immunity, the focus is on commonly encountered Combined Immunodeficiency Disorders (CIDs) with susceptibility to infections. Combined immune deficiency disorders are usually commensurate with survival beyond infancy unlike Severe Combined Immune Deficiency (SCID) and are often associated with clinical features of a syndromic nature. Defective humoral and cellular immune responses result in susceptibility to a broad range of microbial infections. Although disease onset is usually in early childhood, mild defects may present in late childhood or even in adulthood. A precise diagnosis is imperative not only for determining management strategies, but also for providing accurate genetic counseling, including prenatal diagnosis, and also in deciding empiric treatment of infections upfront before investigation reports are available.

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“…For example, invasive aspergillosis has been linked with inborn errors in patients with chronic granulomatous disease, severe congenital neutropenia or leukocyte adhesion deficiency type I ( 31 , 32 ). Moreover, other less common congenital immunodeficiencies (e.g., CARD9 immunity, IL-12/interferon (IFN)-γ axis or IL-17 immunity) have been described to increase susceptibility risk to invasive candidiasis, dermatophytosis, chronic mucocutaneous candidiasis or endemic mycoses ( Figure 1 ) ( 33 – 36 ).…”

Section: The First Perspective: the Host Geneticsmentioning

confidence: 99%

Host, pathogenic fungi and the microbiome: A genetic triangle in infection

et al. 2023

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The first perspective: The host geneticsThe outcome of fungal disease is determined by complex interactions between fungal pathogens, human hosts and their environment including the host microbiome (1-4). Morbidity and mortality in fungal disease remain very high despite recent advances in the diagnostic and treatment of these conditions (5-7). There are only three classes of antifungal drugs available to treat these disease and, antifungal resistance linked to the use of agricultural use of triazole fungicides is on the rise (8). The development of new antifungal drugs to treat human fungal disease is challenging as both, host and pathogen are eukaryotes and, there are different potential druggable targets exposed at different points of fungal morphogenesis.So far, the identification of high-risk patients for fungal disease has relied on the use of clinical scores that combine the use of clinical and host factors to predict the risk of subsequent disease (9-11). However, the prevalence of opportunistic fungal diseases within at-risk population, ranges from 0.1 -20% (12). In the last decades, individual genetic variation has been recognised as a major contribution of functional immune responses against fungal pathogens. Several monogenic defects and polymorphisms in genes regulating antifungal immunity or pathogen sensing have been associated with susceptibility to aspergillosis, cryptococcosis and candidiasis (13) (Figure 1).Sensing of human fungal pathogens by the host immune system requires the interplay between pathogen-associated molecular patterns (PAMPs), mostly located in the cell wall of fungal pathogens, and pattern recognition receptors (PRRs) (14-17). The interaction between PRRs and PAMPs, leads to the regulation of uptake of fungal pathogens by immune cells. In addition to membrane receptors, soluble PRRs such as pentraxins or mannose binding lectins (MBLs) are also critical for pathogen sensing and efficient phagocytosis (18, 19).To date, polymorphisms in PTX3 have been reported in different clinical settings as a risk factor for invasive pulmonary aspergillosis in haematopoietic stem cell transplant recipients (20), solid organ transplants (21) and chronic obstructive pulmonary disease (22). Using ex Frontiers in Immunology frontiersin.org 01

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Primary immunodeficiency and chronic mucocutaneous candidiasis: pathophysiological, diagnostic, and therapeutic approaches.

Cited by 15 publications

References 43 publications

Case for diagnosis. Disseminated erythematous and scaly plaques: chronic mucocutaneous candidiasis

Case for diagnosis. Disseminated erythematous and scaly plaques: chronic mucocutaneous candidiasis

Infections in Inborn Errors of Immunity with Combined Immune Deficiency: A Review

Host, pathogenic fungi and the microbiome: A genetic triangle in infection

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