Human CD4
            <sup>+</sup>
            CD103
            <sup>+</sup>
            cutaneous resident memory T cells are found in the circulation of healthy individuals

Klicznik, Maria M.; Morawski, Peter A.; Höllbacher, Barbara; Varkhande, Suraj; Motley, Samantha; Kuri-Cervantes, Leticia; Goodwin, Eileen; Rosenblum, Michael D.; Long, S. Alice; Brachtl, Gabriele; Duhen, Thomas; Betts, Michael R.; Campbell, Daniel; Gratz, Iris K.

doi:10.1126/sciimmunol.aav8995

Cited by 182 publications

(139 citation statements)

References 65 publications

(84 reference statements)

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“…Although not investigated here directly, we hypothesize that neoplastic clones do not migrate unidirectionally from the blood to the skin. Recent findings that downregulation of CD69 enables skin resident memory cells to exit the tissue and to recirculate 52 indicates that neoplastic cells in MF should also be able to re-enter the circulation and contribute to the pool of circulating neoplastic clones. This mechanism is reminiscent of the phenomenon of tumor self-seeding 36,53 where circulating metastatic cells colonize the primary tumor.…”

Section: Discussionmentioning

confidence: 99%

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Iyer

Hennessey

OʼKeefe

et al. 2019

Preprint

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Mycosis fungoides (MF) is a mature T-cell lymphoma currently thought to develop primarily in the skin by a clonal expansion of a transformed, resident memory T-cell. However, this concept does not explain the key characteristics of MF such as the debut with multiple, widespread skin lesions or inability of skin directed therapies to provide cure. The testable inference of the mature T-cell theory is the clonality of MF with respect to all rearranged T-cell receptor (TCR) genes. Here we have used whole exome sequencing approach to detect and quantify TCRα, -β and -γ clonotypes in tumor cell clusters microdissected from MF lesions. This method allows us to calculate the tumor cell fraction of the sample and therefore an unequivocal identification of the TCR clonotypes as neoplastic. Analysis of TCR sequences from 29 patients with MF stage I-IV proved existence of multiple T-cell clones within the tumor cell fraction, with a considerable variation between patients and between lesions from the same patient (median 11 clones, range 2-80 clones/sample). We have also detected multiple neoplastic clones in the peripheral blood in all examined patients. Based on these findings we propose that circulating neoplastic T-cell clones continuously replenish the lesions of MF thus increasing their heterogeneity by a mechanism analogous to the consecutive tumor seeding. We hypothesize that circulating neoplastic clones might be a promising target for therapy and could be exploited as a potential biomarker in MF.

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Section: Discussionmentioning

confidence: 99%

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Iyer

Hennessey

OʼKeefe

et al. 2019

Preprint

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“…While the overall blood T cell population displayed a resting functional state, the host blood CD8+ T cell population displayed a strong enrichment of proliferating T cells according to the proportion of cells within the G2/M phase. It remains scarcely investigated whether and how TRM cells exit their tissue of origin 10,19. Based on our cell cycle analysis, we speculate that preceding T cell activation might have mobilized them out of their respective tissues.…”

Section: Although Insights Into the Regulation Of Human Tissue Residementioning

confidence: 91%

Transcriptional profiling and single-cell chimerism analysis identifies human tissue resident T cells in the human skin after allogeneic stem cell transplantation

Almeida

Lichtner

Mädler

et al. 2020

Preprint

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Tissue resident memory T cells (TRM) have recently emerged as crucial cellular players for host defense in a wide variety of tissues and barrier sites. Mouse models revealed that they are maintained long-term in loco unlike recirculating effector memory T cells (TEM). Insights into the maintenance and regulatory checkpoints of human tissue resident T cells (TRM) remain scarce, especially due to the obstacles in tracking T cells over time and system-wide in humans.We present a clinical model that allowed us to overcome these limitations. We demonstrate that allogeneic stem cell transplantation resulted in compartmentalization of host T cells in the human skin despite complete donor T cell chimerism in the blood, thus unmasking long-term persistence of tissue resident T cell subsets of host origin within the diverse skin T cell community. Single-cell transcriptional profiling paired with single-cell chimerism analysis provided an in-depth characterization of these bona fide skin resident T cells. Their phenotype, functions and regulatory checkpoints may serve therapeutic strategies for the treatment of autoimmune diseases and chronic infections, where their specific depletion versus maintenance,

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“…Recently, the dogma of T RM as a non-circulating subset was challenged by identifying a population of circulating CD4 + T RM in human blood, which was designated as "ex-T RM " [107]. These CD4 + ex-T RM express the skin homing and retention glycan cutaneous lymphocyte-associated antigen (CLA), have similar phenotypic and transcriptional attributes as skin resident CD4 + CD103 + CLA + T RM , and share a clonal origin with CD4 + CD103 + CLA + T RM in the skin, based on TCR sequencing [108]. Thus, these new data suggest that CD4 + T RM may reside in tissues for prolonged periods of time, but possibly not for all of their lifespan.…”

Section: Memory T Cell Phenotypementioning

confidence: 99%

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

Raphael

Joern

Forsthuber

2020

Cells

108

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CD4 + T helper (Th) cells play central roles in immunity in health and disease. While much is known about the effector function of Th cells in combating pathogens and promoting autoimmune diseases, the roles and biology of memory CD4 + Th cells are complex and less well understood. In human autoimmune diseases such as multiple sclerosis (MS), there is a critical need to better understand the function and biology of memory T cells. In this review article we summarize current concepts in the field of CD4 + T cell memory, including natural history, developmental pathways, subsets, and functions. Furthermore, we discuss advancements in the field of the newly-described CD4 + tissue-resident memory T cells and of CD4 + memory T cells in autoimmune diseases, two major areas of important unresolved questions in need of answering to advance new vaccine design and development of novel treatments for CD4 + T cell-mediated autoimmune diseases.

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Human CD4 ⁺ CD103 ⁺ cutaneous resident memory T cells are found in the circulation of healthy individuals

Cited by 182 publications

References 65 publications

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Transcriptional profiling and single-cell chimerism analysis identifies human tissue resident T cells in the human skin after allogeneic stem cell transplantation

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

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Human CD4 + CD103 + cutaneous resident memory T cells are found in the circulation of healthy individuals

Cited by 182 publications

References 65 publications

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Skin colonization by circulating neoplastic clones in cutaneous T-cell lymphoma

Transcriptional profiling and single-cell chimerism analysis identifies human tissue resident T cells in the human skin after allogeneic stem cell transplantation

Memory CD4+ T Cells in Immunity and Autoimmune Diseases

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Product

Resources

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Human CD4 ⁺ CD103 ⁺ cutaneous resident memory T cells are found in the circulation of healthy individuals