David L. Haviland 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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Single-cell analysis of human glioma and immune cells identifies S100A4 as an immunotherapy target

et al. 2022

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A major rate-limiting step in developing more effective immunotherapies for GBM is our inadequate understanding of the cellular complexity and the molecular heterogeneity of immune infiltrates in gliomas. Here, we report an integrated analysis of 201,986 human glioma, immune, and other stromal cells at the single cell level. In doing so, we discover extensive spatial and molecular heterogeneity in immune infiltrates. We identify molecular signatures for nine distinct myeloid cell subtypes, of which five are independent prognostic indicators of glioma patient survival. Furthermore, we identify S100A4 as a regulator of immune suppressive T and myeloid cells in GBM and demonstrate that deleting S100a4 in non-cancer cells is sufficient to reprogram the immune landscape and significantly improve survival. This study provides insights into spatial, molecular, and functional heterogeneity of glioma and glioma-associated immune cells and demonstrates the utility of this dataset for discovering therapeutic targets for this poorly immunogenic cancer.

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A pure population of lung alveolar epithelial type II cells derived from human embryonic stem cells

Wang¹,

Haviland²,

Burns

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

219

176

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complement ͉ differentiation ͉ surfactant proteins ͉ ␣-1-antitrypsin ͉ cystic fibrosis transmembrane conductance receptor T he alveolar epithelium covers Ͼ99% of the internal surface area of the lung and is composed of two major cell types, the alveolar type I (ATI) cell and the alveolar type II (ATII) cell. ATI cells are large flat cells through which exchange of CO 2 /O 2 takes place. They cover Ϸ95% of the alveolar surface and comprise Ϸ40% of the alveolar epithelium and 8% of the peripheral lung cells. In contrast, ATII cells are small, cuboidal cells that cover Ϸ5% of the alveolar surface and comprise 60% of the alveolar epithelium and 15% of the peripheral lung cells. They are characterized by the unique ability to synthesize and secrete surfactant protein C (SPC) and by the distinct morphological appearance of inclusion bodies, known as lamellar bodies. Important functions of ATII cells are (i) to synthesize, store, and secrete surfactant, which reduces surface tension, preventing collapse of the alveolus; (ii) to transport ions from the alveolar fluid into the interstitium, thereby minimizing alveolar fluid and maximizing gas exchange; (iii) to serve as progenitor cells for ATI cells, which is particularly important during reepithelialization of the alveolus after lung injury; and (iv) to provide pulmonary host defense by synthesizing and secreting several complement proteins including C3 and C5

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David L. Haviland

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^*

Single-cell analysis of human glioma and immune cells identifies S100A4 as an immunotherapy target

A pure population of lung alveolar epithelial type II cells derived from human embryonic stem cells

Contact Info

Product

Resources

About

David L. Haviland

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*

Single-cell analysis of human glioma and immune cells identifies S100A4 as an immunotherapy target

A pure population of lung alveolar epithelial type II cells derived from human embryonic stem cells

Contact Info

Product

Resources

About

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