MYO1F regulates antifungal immunity by regulating acetylation of microtubules

Sun, Wanwei; Ma, Xiaojian; Wang, Heping; Du, Yanyun; Chen, Jianwen; Hu, Huijun; Gao, Ru; He, Ruirui; Peng, Qianwen; Cui, Zhenzhong; Zhang, Huazhi; Wang, Junhan; Jia, Xin‐Ming; Martin, Bradley N.; Zhang, Cunjin; Li, Xiaoxia; Wang, Chenhui

doi:10.1073/pnas.2100230118

Cited by 15 publications

(78 citation statements)

References 72 publications

(101 reference statements)

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“…In this sense, the E3 ligase TRIM31 is a crucial factor by interacting with cytoplasmic Syk to catalyze its K27-linked polyubiquitination, that promotes its plasma membrane translocation and binding to the intracellular domain of Dectin-1 ( 74 ). After phosphorylation, active Syk moves back to the cytoplasm based on cytoskeleton adaptations controlled by the unconventional myosin MYO1F ( 75 ), leading to downstream signal transduction. Notably, the stimulation of Dectin-1 by zymosan induced the phosphorylation of the phosphatase SHP-2.…”

Section: Signaling Pathways Downstream Dectin-1mentioning

confidence: 99%

“…Based on the seminal work by Deng et al , Raf-1 phosphorylation depends on SHP-2 in response to Dectin-1 ligands ( 76 ). However, the relevance of Myosin IF (MYO1F) in Syk-independent pathways was not explored ( 75 ). Considering the differential implication of MYO1F in PI3K/AKT/mammalian Target of Rapamycin (mTOR) activation after IFNγ/LPS stimulation ( 116 ), it would be interesting to address the role of this myosin for the Syk-independent molecular pathways triggered downstream Dectin-1, as well as for SHP-2.…”

Section: Signaling Pathways Downstream Dectin-1mentioning

confidence: 99%

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Dectin-1 Signaling Update: New Perspectives for Trained Immunity

2022

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The C-type lectin receptor Dectin-1 was originally described as the β-glucan receptor expressed in myeloid cells, with crucial functions in antifungal responses. However, over time, different ligands both of microbial-derived and endogenous origin have been shown to be recognized by Dectin-1. The outcomes of this recognition are diverse, including pro-inflammatory responses such as cytokine production, reactive oxygen species generation and phagocytosis. Nonetheless, tolerant responses have been also attributed to Dectin-1, depending on the specific ligand engaged. Dectin-1 recognition of their ligands triggers a plethora of downstream signaling pathways, with complex interrelationships. These signaling routes can be modulated by diverse factors such as phosphatases or tetraspanins, resulting either in pro-inflammatory or regulatory responses. Since its first depiction, Dectin-1 has recently gained a renewed attention due to its role in the induction of trained immunity. This process of long-term memory of innate immune cells can be triggered by β-glucans, and Dectin-1 is crucial for its initiation. The main signaling pathways involved in this process have been described, although the understanding of the above-mentioned complexity in the β-glucan-induced trained immunity is still scarce. In here, we have reviewed and updated all these factors related to the biology of Dectin-1, highlighting the gaps that deserve further research. We believe on the relevance to fully understand how this receptor works, and therefore, how we could harness it in different pathological conditions as diverse as fungal infections, autoimmunity, or cancer.

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Section: Signaling Pathways Downstream Dectin-1mentioning

confidence: 99%

Section: Signaling Pathways Downstream Dectin-1mentioning

confidence: 99%

Dectin-1 Signaling Update: New Perspectives for Trained Immunity

2022

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“…LAPTM5, a protein, is preferentially expressed in immune cells ( Berberich et al, 2020 ), and could interact with the Nedd4 family of ubiquitin ligases, which played an essential role in multiple tumor initiation and progression. Finally, MYO1F functioned as an unconventional myosin ( Diquigiovanni et al, 2018 ; Sun et al, 2021 ) and promoted the expression of critical genes for antifungal innate immune signaling and proinflammatory responses.…”

Section: Discussionmentioning

confidence: 99%

Metabolic Signature-Based Subtypes May Pave Novel Ways for Low-Grade Glioma Prognosis and Therapy

et al. 2021

Front. Cell Dev. Biol.

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Metabolic signatures are frequently observed in cancer and are starting to be recognized as important regulators for tumor progression and therapy. Because metabolism genes are involved in tumor initiation and progression, little is known about the metabolic genomic profiles in low-grade glioma (LGG). Here, we applied bioinformatics analysis to determine the metabolic characteristics of patients with LGG from the Cancer Genome Atlas (TCGA) and the Chinese Glioma Genome Atlas (CGGA). We also performed the ConsensusClusterPlus, the CIBERSORT algorithm, the Estimate software, the R package “GSVA,” and TIDE to comprehensively describe and compare the characteristic difference between three metabolic subtypes. The R package WGCNA helped us to identify co-expression modules with associated metabolic subtypes. We found that LGG patients were classified into three subtypes based on 113 metabolic characteristics. MC1 patients had poor prognoses and MC3 patients obtained longer survival times. The different metabolic subtypes had different metabolic and immune characteristics, and may have different response patterns to immunotherapy. Based on the metabolic subtype, different patterns were exhibited that reflected the characteristics of each subtype. We also identified eight potential genetic markers associated with the characteristic index of metabolic subtypes. In conclusion, a comprehensive understanding of metabolism associated characteristics and classifications may improve clinical outcomes for LGG.

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“…It is involved in neural cell development via binding to m-Numb [66], as well as hematopoietic stem cell differentiation [67]. Furthermore, AP2 was found to play a role in the synaptic vesicle cycle pathway and related neurodegenerative diseases [68], in cell defense (e.g., in the antifungal defense mechanism by binding to MYO1F) [69] and in inhibition of HIV genomic incorporation [70]. However, this clathrin endocytosis-related subunit can also serve as a target of viral infection, for example, by being hijacked by HAdV-D37 [71] and HEV71 [72] viruses.…”

Section: Ap2 Complexmentioning

confidence: 99%

“…AP2A1 recognizes and binds to cargo proteins, clathrin, and accessory proteins, and thus plays a key role in the clathrin-dependent endocytosis process [ 63–65 ]. AP2A1 was reported to be involved in neural cell development via binding to m-Numb [ 66 ], in hematopoietic stem cell differentiation [ 67 ], in the synaptic vesicle cycle pathway and related neurodegenerative diseases [ 68 ], in cell defense (e.g., in the antifungal defense mechanism by binding to MYO1F) [ 69 ] and in inhibition of HIV genomic incorporation [ 70 ]. However, this clathrin endocytosis-related subunit can also serve as a target of viral infection, for example, by being hijacked by HAdV-D37 [ 71 ] and HEV71 [ 72 ] viruses.…”

Section: Ap2 Complexmentioning

confidence: 99%

Role of adaptin protein complexes in intracellular trafficking and their impact on diseases

Shin

Nile

2021

Bioengineered

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Adaptin proteins (APs) play a crucial role in intracellular cell trafficking. The 'classical' role of APs is carried out by AP1-3, which bind to clathrin, cargo, and accessory proteins. Accordingly, AP1-3 are crucial for both vesicle formation and sorting. All APs consist of four subunits that are indispensable for their functions. In fact, based on studies using cells, model organism knockdown/knock-out, and human variants, each subunit plays crucial roles and contributes to the specificity of each AP. These studies also revealed that the sorting and intracellular trafficking function of AP can exert varying effects on pathology by controlling features such as cell development, signal transduction related to the apoptosis and proliferation pathways in cancer cells, organelle integrity, receptor presentation, and viral infection. Although the roles and functions of AP1-3 are relatively well studied, the functions of the less abundant and more recently identified APs, AP4 and AP5, are still to be investigated. Further studies on these APs may enable a better understanding and targeting of specific diseases.

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MYO1F regulates antifungal immunity by regulating acetylation of microtubules

Cited by 15 publications

References 72 publications

Dectin-1 Signaling Update: New Perspectives for Trained Immunity

Dectin-1 Signaling Update: New Perspectives for Trained Immunity

Metabolic Signature-Based Subtypes May Pave Novel Ways for Low-Grade Glioma Prognosis and Therapy

Role of adaptin protein complexes in intracellular trafficking and their impact on diseases

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