Histamine production by human neutrophils

Alcañiz, Lorena; Vega, Antonio Pereira; Chacón, Pedro; Bekay, Rajaa El; Ventura, Inmaculada; Aroca, Rocío; Blanca, Miguel; Bergstralh, Daniel T.; Monteseirı́n, Javier

doi:10.1096/fj.12-223867

Cited by 46 publications

(55 citation statements)

References 61 publications

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“…In particular, TLR2/4/6 genes were highly enriched in granulocytic myeloid cells (Figure 2B and S3C) (Table S1) (Chen et al, 2017). As LPS elicits histamine release from Hdc-expressing cells (Alcaniz et al, 2013), we analyzed histamine release from Hdc-GFPhi HSCs and myeloid cells in response to in vitro LPS stimulation. The results showed that only Hdc-GFP hi myeloid cells were capable of releasing a large amount of histamine shortly after LPS treatment (Figure S3D), indicating that Hdc-expressing myeloid cells preferentially sense and respond to bacteria-mediated TLR signals.…”

Section: Resultsmentioning

confidence: 99%

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

et al. 2017

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SUMMARY Myeloid-biased hematopoietic stem cells (MB-HSCs) play critical roles in recovery from injury, but little is known about how they are regulated within the bone marrow niche. Here, we describe an auto/paracrine physiologic circuit that controls quiescence of MB-HSCs and hematopoietic progenitors marked by histidine decarboxylase (Hdc). Committed Hdc+ myeloid cells lie in close anatomical proximity to MB-HSCs and produce histamine, which activates the H2 receptor on MB-HSCs to promote their quiescence and self-renewal. Depleting histamine-producing cells enforces cell cycle entry, induces loss of serial transplant capacity, and sensitizes animals to chemotherapeutic injury. Increasing demand for myeloid cells via LPS treatment specifically recruits MB-HSCs and progenitors into the cell cycle; cycling MB-HSCs fail to revert into quiescence in the absence of histamine feedback, leading to their depletion, while an H2 agonist protects MB-HSCs from depletion after sepsis. Thus, histamine couples lineage-specific physiological demands to intrinsically-primed MB-HSCs to enforce homeostasis.

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Section: Resultsmentioning

confidence: 99%

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

et al. 2017

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“…It is important to note that the H 4 R has a very high affinity for histamine, especially compared with the histamine H 1 and H 2 receptors, and therefore it may be activated by cells that release even low levels of histamine. To this point, it has become apparent that many immune cells, such as dendritic cells, T cells and neutrophils, are capable of producing histamine when stimulated 7 30 31. It has been speculated that local production of histamine by dendritic cells can act in an autocrine fashion to modulate dendritic cell/T cell interactions,32 and this local production of histamine in the joint or at sites of T cell activation may be the most relevant for H 4 R activation in human arthritis.…”

Section: Discussionmentioning

confidence: 99%

The histamine H₄ receptor mediates inflammation and Th17 responses in preclinical models of arthritis

Cowden

Banie

et al. 2013

Ann Rheum Dis

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ObjectiveThe histamine H4 receptor (H4R) has been shown to drive inflammatory responses in models of asthma, colitis and dermatitis, and in these models it appears to affect both innate and adaptive immune responses. In this study, we used both H4R-deficient mice and a specific H4R antagonist, JNJ 28307474, to investigate the involvement of the H4R in mouse arthritis models.MethodsH4R-deficient mice and wild-type mice administered the H4R antagonist were studied in models of collagen antibody-induced arthritis (CAIA) and collagen-induced arthritis (CIA). The impact on Th17 cells was assessed by restimulation of inguinal lymphocytes in the disease or immunisation models and with in vitro stimulation of whole blood.ResultsBoth H4R-deficient mice and mice treated with the H4R antagonist exhibited reduced arthritis disease severity in both CAIA and CIA models. This was evident from the reduction in disease score and in joint histology. In the CIA model, treatment with the H4R antagonist reduced the number of interleukin (IL)-17 positive cells in the lymph node and the total production of IL-17. Th17 cell development in vivo was reduced in H4R-deficient mice or in mice treated with an H4R antagonist. Finally, treatment of both mouse and human blood with an H4R antagonist reduced the production of IL-17 when cells were stimulated in vitro.ConclusionsThese results implicate the H4R in disease progression in arthritis and in the production of IL-17 from Th17 cells. This work supports future clinical exploration of H4R antagonists for the treatment of rheumatoid arthritis.

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“…In mast cells, basophils, enterochromaffin-like cells of the gastrointestinal tract, and histaminergic neurons, histamine is stored, probably heparin-bound, in granules and is released in response to a specific stimulus (Barnes et al, 1988;Rabenstein et al, 1998). However, HDC is expressed not only in these "classically" known histamine-producing cells but also in monocyte-derived cells (László et al, 2000;Dunford et al, 2006;Xu et al, 2012;Alcañiz et al, 2013). As a consequence, one can speculate that HDC activity is present, at least after induction, in virtually every other cell type as well.…”

Section: Histaminementioning

confidence: 99%

Analysis of Histamine Receptor Knockout Mice in Models of Inflammation

Neumann

Schneider

Seifert

2013

J Pharmacol Exp Ther

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The diverse functions of histamine are mediated by four specific histamine receptor subtypes, which belong to the family of Gprotein-coupled receptors. Here, we summarize data obtained with histamine-deficient L-histidine decarboxylase knockout and histamine receptor subtype knockout mice in inflammation models. Advantages and disadvantages of the knockout approaches compared with pharmacologic approaches are discussed critically. Due to many controversial data it is very difficult to draw clear-cut conclusions from the data provided in the literature.

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Histamine production by human neutrophils

Cited by 46 publications

References 61 publications

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

The histamine H₄ receptor mediates inflammation and Th17 responses in preclinical models of arthritis

Analysis of Histamine Receptor Knockout Mice in Models of Inflammation

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Histamine production by human neutrophils

Cited by 46 publications

References 61 publications

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

Bone Marrow Myeloid Cells Regulate Myeloid-Biased Hematopoietic Stem Cells via a Histamine-Dependent Feedback Loop

The histamine H4 receptor mediates inflammation and Th17 responses in preclinical models of arthritis

Analysis of Histamine Receptor Knockout Mice in Models of Inflammation

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The histamine H₄ receptor mediates inflammation and Th17 responses in preclinical models of arthritis