Pleun Hombrink scite author profile

These guidelines are a consensus work of a considerable number of members of the immunology and flow cytometry community. They provide the theory and key practical aspects of flow cytometry enabling immunologists to avoid the common errors that often undermine immunological data. Notably, there are comprehensive sections of all major immune cell types with helpful Tables detailing phenotypes in murine and human cells. The latest flow cytometry techniques and applications are also described, featuring examples of the data that can be generated and, importantly, how the data can be analysed. Furthermore, there are sections detailing tips, tricks and pitfalls to avoid, all written and peer‐reviewed by leading experts in the field, making this an essential research companion.

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Guidelines for the use of flow cytometry and cell sorting in immunological studies^*

Cossarizza

et al. 2017

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International audienceThe classical model of hematopoiesis established in the mouse postulates that lymphoid cells originate from a founder population of common lymphoid progenitors. Here, using a modeling approach in humanized mice, we showed that human lymphoid development stemmed from distinct populations of CD127(-) and CD127(+) early lymphoid progenitors (ELPs). Combining molecular analyses with in vitro and in vivo functional assays, we demonstrated that CD127(-) and CD127(+) ELPs emerged independently from lympho-mono-dendritic progenitors, responded differently to Notch1 signals, underwent divergent modes of lineage restriction, and displayed both common and specific differentiation potentials. Whereas CD127(-) ELPs comprised precursors of T cells, marginal zone B cells, and natural killer (NK) and innate lymphoid cells (ILCs), CD127(+) ELPs supported production of all NK cell, ILC, and B cell populations but lacked T potential. On the basis of these results, we propose a "two-family" model of human lymphoid development that differs from the prevailing model of hematopoiesis

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IL-1β, IL-4 and IL-12 control the fate of group 2 innate lymphoid cells in human airway inflammation in the lungs

et al. 2016

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Group 2 innate lymphoid cells (ILC2s) secrete type 2 cytokines, which protect against parasites but can also contribute to a variety of inflammatory airway diseases. We report here that interleukin 1β (IL-1β) directly activated human ILC2s and that IL-12 induced the conversion of these activated ILC2s into interferon-γ (IFN-γ)-producing ILC1s, which was reversed by IL-4. The plasticity of ILCs was manifested in diseased tissues of patients with severe chronic obstructive pulmonary disease (COPD) or chronic rhinosinusitis with nasal polyps (CRSwNP), which displayed IL-12 or IL-4 signatures and the accumulation of ILC1s or ILC2s, respectively. Eosinophils were a major cellular source of IL-4, which revealed cross-talk between IL-5-producing ILC2s and IL-4-producing eosinophils. We propose that IL-12 and IL-4 govern ILC2 functional identity and that their imbalance results in the perpetuation of type 1 or type 2 inflammation.

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Programs for the persistence, vigilance and control of human CD8+ lung-resident memory T cells

et al. 2016

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Tissue-resident memory T cells (T cells) in the airways mediate protection against respiratory infection. We characterized T cells expressing integrin α (CD103) that reside within the epithelial barrier of human lungs. These cells had specialized profiles of chemokine receptors and adhesion molecules, consistent with their unique localization. Lung T cells were poised for rapid responsiveness by constitutive expression of deployment-ready mRNA encoding effector molecules, but they also expressed many inhibitory regulators, suggestive of programmed restraint. A distinct set of transcription factors was active in CD103 T cells, including Notch. Genetic and pharmacological experiments with mice revealed that Notch activity was required for the maintenance of CD103 T cells. We have thus identified specialized programs underlying the residence, persistence, vigilance and tight control of human lung T cells.

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Parallel detection of antigen-specific T-cell responses by multidimensional encoding of MHC multimers

et al. 2009

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The use of fluorescently labeled major histocompatibility complex multimers has become an essential technique for analyzing disease- and therapy-induced T-cell immunity. Whereas classical major histocompatibility complex multimer analyses are well-suited for the detection of immune responses to a few epitopes, limitations on human-subject sample size preclude a comprehensive analysis of T-cell immunity. To address this issue, we developed a combinatorial encoding strategy that allows the parallel detection of a multitude of different T-cell populations in a single sample. Detection of T cells from peripheral blood by combinatorial encoding is as efficient as detection with conventionally labeled multimers but results in a substantially increased sensitivity and, most notably, allows comprehensive screens to be performed. We obtained proof of principle for the feasibility of large-scale screening of human material by analysis of human leukocyte antigen A3-restricted T-cell responses to known and potential melanoma-associated antigens in peripheral blood from individuals with melanoma.

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Tissue-resident memory T cells populate the human brain

et al. 2018

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Most tissues are populated by tissue-resident memory T cells (TRM cells), which are adapted to their niche and appear to be indispensable for local protection against pathogens. Here we show that human white matter-derived brain CD8+ T cells can be subsetted into CD103−CD69+ and CD103+CD69+ T cells both with a phenotypic and transcription factor profile consistent with TRM cells. Specifically, CD103 expression in brain CD8+ T cells correlates with reduced expression of differentiation markers, increased expression of tissue-homing chemokine receptors, intermediate and low expression of the transcription factors T-bet and eomes, increased expression of PD-1 and CTLA-4, and low expression of cytolytic enzymes with preserved polyfunctionality upon activation. Brain CD4+ T cells also display TRM cell-associated markers but have low CD103 expression. We conclude that the human brain is surveilled by TRM cells, providing protection against neurotropic virus reactivation, whilst being under tight control of key immune checkpoint molecules.

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Tissue-resident memory T cells at the center of immunity to solid tumors

et al. 2018

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Immune responses in tissues are constrained by the physiological properties of the tissue involved. Tissue-resident memory T cells (T cells) are a recently discovered lineage of T cells specialized for life and function within tissues. Emerging evidence has shown that T cells have a special role in the control of solid tumors. A high frequency of T cells in tumors correlates with favorable disease progression in patients with cancer, and studies of mice have shown that T cells are necessary for optimal immunological control of solid tumors. Here we describe what defines T cells as a separate lineage and how these cells are generated. Furthermore, we discuss the properties that allow T cells to operate in normal and transformed tissues, as well as implications for the treatment of patients with cancer.

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Trigger-happy resident memory CD4+ T cells inhabit the human lungs

et al. 2018

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Resident memory T cells (T) reside in the lung epithelium and mediate protective immunity against respiratory pathogens. Although lung CD8 T have been extensively characterized, the properties of CD4 T remain unclear. Here we determined the transcriptional signature of CD4 T, identified by the expression of CD103, retrieved from human lung resection material. Various tissue homing molecules were specifically upregulated on CD4 T, whereas expression of tissue egress and lymph node homing molecules were low. CD103 T expressed low levels of T-bet, only a small portion expressed Eomesodermin (Eomes), and although the mRNA levels for Hobit were increased, protein expression was absent. On the other hand, the CD103 T showed a Notch signature. CD4CD103 T constitutively expressed high transcript levels of numerous cytotoxic mediators that was functionally reflected by a fast recall response, magnitude of cytokine production, and a high degree of polyfunctionality. Interestingly, the superior cytokine production appears to be because of an accessible interferon-γ (IFNγ) locus and was partially because of rapid translation of preformed mRNA. Our studies provide a molecular understanding of the maintenance and potential function of CD4 T in the human lung. Understanding the specific properties of CD4 T is required to rationally improve vaccine design.

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Pleun Hombrink

Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

Guidelines for the use of flow cytometry and cell sorting in immunological studies^*

IL-1β, IL-4 and IL-12 control the fate of group 2 innate lymphoid cells in human airway inflammation in the lungs

Programs for the persistence, vigilance and control of human CD8+ lung-resident memory T cells

Parallel detection of antigen-specific T-cell responses by multidimensional encoding of MHC multimers

Tissue-resident memory T cells populate the human brain

Tissue-resident memory T cells at the center of immunity to solid tumors

Trigger-happy resident memory CD4+ T cells inhabit the human lungs

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About

Pleun Hombrink

Guidelines for the use of flow cytometry and cell sorting in immunological studies (second edition)

Guidelines for the use of flow cytometry and cell sorting in immunological studies*

IL-1β, IL-4 and IL-12 control the fate of group 2 innate lymphoid cells in human airway inflammation in the lungs

Programs for the persistence, vigilance and control of human CD8+ lung-resident memory T cells

Parallel detection of antigen-specific T-cell responses by multidimensional encoding of MHC multimers

Tissue-resident memory T cells populate the human brain

Tissue-resident memory T cells at the center of immunity to solid tumors

Trigger-happy resident memory CD4+ T cells inhabit the human lungs

Contact Info

Product

Resources

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Guidelines for the use of flow cytometry and cell sorting in immunological studies^*