Recent Advancements in Regenerative Approaches for Thymus Rejuvenation

Sharma, Himal; Moroni, Lorenzo

doi:10.1002/advs.202100543

Cited by 21 publications

(23 citation statements)

References 191 publications

(308 reference statements)

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“…Considering these restrictions, combining different approaches instead of a single may better unlock the thymic regenerative potential and be more suitable for translating to the clinic. More detailed analyses of current thymic regenerative strategies are provided in the recent reviews ( 15 , 177 , 178 ).…”

Section: Thymus Reconstitution Strategiesmentioning

confidence: 99%

Key Factors for Thymic Function and Development

Shichkin¹,

Antica

2022

Front. Immunol.

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The thymus is the organ responsible for T cell development and the formation of the adaptive immunity function. Its multicellular environment consists mainly of the different stromal cells and maturing T lymphocytes. Thymus-specific progenitors of epithelial, mesenchymal, and lymphoid cells with stem cell properties represent only minor populations. The thymic stromal structure predominantly determines the function of the thymus. The stromal components, mostly epithelial and mesenchymal cells, form this specialized area. They support the consistent developmental program of functionally distinct conventional T cell subpopulations. These include the MHC restricted single positive CD4+ CD8- and CD4- CD8+ cells, regulatory T lymphocytes (Foxp3+), innate natural killer T cells (iNKT), and γδT cells. Several physiological causes comprising stress and aging and medical treatments such as thymectomy and chemo/radiotherapy can harm the thymus function. The present review summarizes our knowledge of the development and function of the thymus with a focus on thymic epithelial cells as well as other stromal components and the signaling and transcriptional pathways underlying the thymic cell interaction. These critical thymus components are significant for T cell differentiation and restoring the thymic function after damage to reach the therapeutic benefits.

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Section: Thymus Reconstitution Strategiesmentioning

confidence: 99%

Key Factors for Thymic Function and Development

Shichkin¹,

Antica

2022

Front. Immunol.

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“…In TECs proliferation and immunophenotype differentiation, several transcription factors and signaling pathways are involved, many produced by the fetal mesenchymal cells, during the thymus development process: the forkhead family transcription factor [forkhead box N1 (FOXN1)], the earliest involved and the master regulator of TECs, the sonic hedgehog (Shh), the fibroblast growth factor (FGF) [61,63], the bone morphogenetic protein (BMP), the Wnt (combined name from wingless and Int-1), that mediates the expression of FOXN1 and intervenes in T-cell development; the Wnt/β-catenin, which fine tuning is critical for embryonic organogenesis and which establish different TECs subpopulations [64,65]. Some other transcriptional regulatory pathways of thymus and TECs development involve factors, such as paired box (PAX) 1 and PAX9, HOXA3 homeobox protein, and T-box transcription factor 1 (TBX1), but many more studies are needed to completely elucidate how these factors can be employed to restore or boost the thymic function [66].…”

Section: Thymic Epithelial Cells (Tecs)mentioning

confidence: 99%

“…The dynamic of epithelial progenitors in the thymus cortex is controlled by permanent interactions with developing thymocytes [67]. Different expressions for markers of the TECs progenitor cells were identified, such as CD24 and stem cells antigen-1 (Sca-1) (stem cell markers), CD205, 𝛽5T proteasome subunit, and IL7YFP [63,67,68]. There are rare identical subsets of progenitors for two types of TECs, such as placenta-expressed transcript 1 (PLET1)(+) Ly-51(+) [progenitor able to generate cortical thymic epithelial cells (cTECs) and medullary thymic epithelial cells (mTECs)] and CD45(-) epithelial cell adhesion molecule (EpCAM)(+) (proved to be capable of selfrenewal) [63].…”

Section: Thymic Epithelial Cells (Tecs)mentioning

confidence: 99%

“…Different expressions for markers of the TECs progenitor cells were identified, such as CD24 and stem cells antigen-1 (Sca-1) (stem cell markers), CD205, 𝛽5T proteasome subunit, and IL7YFP [63,67,68]. There are rare identical subsets of progenitors for two types of TECs, such as placenta-expressed transcript 1 (PLET1)(+) Ly-51(+) [progenitor able to generate cortical thymic epithelial cells (cTECs) and medullary thymic epithelial cells (mTECs)] and CD45(-) epithelial cell adhesion molecule (EpCAM)(+) (proved to be capable of selfrenewal) [63]. Also, unipotent progenitors for cTECs [expressing EpCAM(+) CD205(+) and CD40(-)] and mTECs (expressing claudin-3 and -4) were described [63].…”

Section: Thymic Epithelial Cells (Tecs)mentioning

confidence: 99%

See 1 more Smart Citation

Untitled

2022

Rom J Morphol Embryol

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This article focuses on the latest histological knowledge in the field regarding the peripheral lymphoid system [mucosa-associated lymphoid tissue (MALT), bronchus-associated lymphoid tissue (BALT), gut-associated lymphoid tissue (GALT)], the thymus stroma, some of the various corpuscles of the human body (Hassall's corpuscles in thymus, arenaceous corpuscles in pineal gland, corpora amylacea in prostate and other locations) and Fañanas glial cells in the cerebellum.

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“…In this Research Topic are collected the efforts of many research groups in trying to overcome the thymus aging/injury problem by applying different regenerative or thymus replacement strategies. The basis of these is the epithelial compartment, in particular, the thymic epithelial stem cells (TESCs) as the target cells to stimulate thymus recovery in vivo or for growing thymus-replacing organoids in vitro ( 3 , 4 ). Several research groups have described TESCs in the embryonal ( 5 ) and adult ( 6 – 8 ) mouse thymus, which were identified as the bipotent TEC progenitors differentiating into cortical (c) and medullary (m) TEC lineages ( 5 – 8 ).…”

mentioning

confidence: 99%