Presence and possible impact of Fcγ receptors on resident kidney cells in health and disease

Typiak, Marlena; Audzeyenka, Irena; Dubaniewicz, Anna

doi:10.1111/imcb.12570

Cited by 4 publications

(2 citation statements)

References 104 publications

(371 reference statements)

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“…Podocytes produce the neonatal receptor for the Fc fragment of IgG (FcRn) but are unable to initiate the process of phagocytosis, which can be stimulated by classical FcγRs. Despite the assumptions of the presence of classical FcγR on podocytes, 50 it has not been confirmed yet. Podocytes are also able to present foreign antigens to T cells because of the expression of both MHC class I and II molecules and costimulatory CD80/CD86 molecules.…”

Section: Cells With Immune Properties Outside the Immune Systemmentioning

confidence: 97%

Not an immune cell, but they may act like one—cells with immune properties outside the immune system

Typiak,

Żurawa‐Janicka

2024

Immunol Cell Biol

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The cells presented in this work are not classified as cells that make up the immune system. They, however, present functions and molecules, which are characteristic of immune cells. These characteristic functions are, for example, sensing threat, performing phagocytosis, presentation of foreign antigens, cytokine release or enhancing immune memory. The enlisted immune response mechanisms are carried out by the possession of molecules such as Toll‐like receptors, receptors for the Fc fragment of IgG, major histocompatibility complex class II molecules, costimulatory CD80/CD86 proteins and molecules needed for NLRP3 (NOD‐like family pyrin domain containing 3) inflammasome activation. Thanks to these properties, the described nonimmune cells play an important role in the local immune response and support of the entire body in the fight against pathogens. They constitute the first line of defense of tissues and organs against pathogens and molecules recognized as harmful. The cells described in this article are particularly important in immunologically privileged places (e.g. the Bowman's capsule in the kidney), where “typical” immune cells normally do not have access. In this paper, we present immune‐like functions and molecule suites of resident kidney cells (podocytes and mesangial cells), cochlear resident cells, fibrocytes and fibroblasts, as well as some stem cells (mesenchymal stem cells and umbilical cord Wharton's jelly–derived cells).

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Section: Cells With Immune Properties Outside the Immune Systemmentioning

confidence: 97%

Not an immune cell, but they may act like one—cells with immune properties outside the immune system

Typiak,

Żurawa‐Janicka

2024

Immunol Cell Biol

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“…[107] TRIM21 was proved to be a unique cytosolic receptor that shows remarkably broad isotype specificity, identified as the last Fc𝛾 receptor (Fc𝛾R) that binds to the Fc region of antibodies, structurally, thermodynamically, and kinetically conserved. [54,108,109] Distinguished from other FcRs that asymmetrically bind one single heavy chain, TRIM21 is a dimeric molecule, containing two PRY/SPRY binding domains, which binds both CH2:CH3 elbow domains in a pincer-like interaction, [110] binding both heavy chains of immunoglobulins simultaneously at equal proportion, suggesting as a new molecular to antibodies detection. [24,111] Clinically, anti-TRIM21/Ro52 antibodies have been found in a wide variety of diseases (Table 1).…”

Section: Fc Dependent Signalingmentioning

confidence: 99%

A Interacting Model: How TRIM21 Orchestrates with Proteins in Intracellular Immunity

Huang,

Gao,

et al. 2023

Small Methods

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Tripartite motif‐containing protein 21 (TRIM21), identified as both a cytosolic E3 ubiquitin ligase and FcR (Fragment crystallizable receptor), primarily interacts with proteins via its PRY/SPRY domains and promotes their proteasomal degradation to regulate intracellular immunity. But how TRIM21 involves in intracellular immunity still lacks systematical understanding. Herein, it is probed into the TRIM21‐related literature and raises an interacting model about how TRIM21 orchestrates proteins in cytosol. In this novel model, TRIM21 generally interacts with miscellaneous protein in intracellular immunity in two ways: For one, TRIM21 solely plays as an E3, ubiquitylating a glut of proteins that contain specific interferon‐regulatory factor, nuclear transcription factor kappaB, virus sensors and others, and involving inflammatory responses. For another, TRIM21 serves as both E3 and specific FcR that detects antibody‐complexes and facilitates antibody destroying target proteins. Correspondingly delineated as Fc‐independent signaling and Fc‐dependent signaling in this review, how TRIM21's interactions contribute to intracellular immunity, expecting to provide a systematical understanding of this important protein and invest enlightenment for further research on the pathogenesis of related diseases and its prospective application is elaborated.

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Protein and peptide-based renal targeted drug delivery systems

Lu,

Xu,

Sun

et al. 2024

Journal of Controlled Release

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Presence and possible impact of Fcγ receptors on resident kidney cells in health and disease

Cited by 4 publications

References 104 publications

Not an immune cell, but they may act like one—cells with immune properties outside the immune system

Not an immune cell, but they may act like one—cells with immune properties outside the immune system

A Interacting Model: How TRIM21 Orchestrates with Proteins in Intracellular Immunity

Protein and peptide-based renal targeted drug delivery systems

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