Identification of a mast-cell-specific receptor crucial for pseudo-allergic drug reactions

McNeil, Benjamin D.; Pundir, Priyanka; Meeker, Sonya; Han, Liang; Undem, Bradley J.; Kulka, Marianna; Dong, Xinzhong

doi:10.1038/nature14022

Cited by 1,020 publications

(1,183 citation statements)

References 34 publications

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“…McNeil did not discuss the possible physiological G-protein coupling of Mrgrb2 or MRGRX2. In addition, it was not explicitly reported by McNeil et al (2014) whether CADs exhibited stimulatory effects in non-transfected HEK293 cells.…”

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confidence: 99%

“…The latter mechanism is also referred to as pseudo-allergy (Wang et al 2011). A recent letter published in Nature (McNeil et al 2014) rekindled the interest in the molecular mechanisms underlying pseudo-allergy.…”

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confidence: 99%

“…The authors also report that the human ortholog of this receptor, MRGRX2, is activated by CADs. Based on these data, McNeil et al (2014) proposed that CADs mediate their pseudo-allergy-inducing effects via a mast cell-specific GPCR. Such a mechanism would open the door for the development of allergy-preventing antagonists, specifically in light of the fact that MRGRX2 is expressed only in mast cells but not peripheral white blood cells.…”

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confidence: 99%

“…The concentrations of mastoparan used by McNeil et al (2014) to activate Mrgrb2 or MRGRX2 are in the same range as the concentrations typically used to activate Gproteins directly (Higashijima et al 1990), rendering discrimination of the two targets based on ligand-selectivity impossible. From the paper of McNeil et al (2014), it is not clear that all of the necessary control experiments with non-transfected cells, cells with just receptor, or G-protein alone and with complete concentration-response curves of CADs in control groups were performed to rule out receptor-independent Gprotein activation by CADs.…”

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confidence: 99%

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How do basic secretagogues activate mast cells?

Seifert

2015

Naunyn-Schmiedeberg's Arch Pharmacol

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How do basic secretagogues activate mast cells?

Seifert

2015

Naunyn-Schmiedeberg's Arch Pharmacol

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“…We now know that these reactions stem from specific off-target drug activity and include the immune-mediated ADRs (IM-ADRs) as well as off-target pharmacological drug effects such as that seen in non-IgE mediated mast cell activation syndrome (Figure 1). 11 IM-ADRs encompass a number of phenotypically distinct clinical diagnoses that comprise both B-cell (antibodymediated, Gell Coombs Types I-III) and purely T-cell mediated reactions (Gell-Coombs Type IV). The clinically relevant T-cell mediated drug reactions have been classified into delayed exanthema without systemic symptoms (maculopapular eruption or MPE), contact dermatitis, drug-induced hypersensitivity syndrome (DIHS)/drug reaction with eosinophilia and systemic symptoms (DRESS)/hypersensitivity syndrome (HSS), Stevens-Johnson syndrome/toxic epidermal necrolysis (SJS/TEN), acute generalized exanthematous pustulosis (AGEP), fixed drug eruption, and single organ involvement pathologies such as drug-induced liver disease (DILI) and pancreatitis.…”

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Evolving models of the immunopathogenesis of T cell–mediated drug allergy: The role of host, pathogens, and drug response

2015

Journal of Allergy and Clinical Immunology

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Immune-mediated adverse drug reactions (IM-ADRs) are an underrecognized source of preventable morbidity, mortality, and cost. Increasingly, genetic variation in the HLA loci is associated with risk of severe reactions, highlighting the importance of T-cell immune responses in the mechanisms of both B-cell mediated and primary T-cell mediated IM-ADRs. In this review, we summarize the role of host genetics, microbes and drugs in the development of IM-ADRs, expand upon the existing models of IM-ADR pathogenesis to address multiple unexplained observations, discuss the implications of this work in clinical practice today, and describe future applications for pre-clinical drug toxicity screening, drug design, and development.

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Respiratory Complications

Shannon

Eapen

Jiménez

et al. 2017

Holland‐Frei Cancer Medicine

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Overview The respiratory system is particularly susceptible to complications of cancer and cancer therapy. This vulnerability arises from the stringent architectural requirements for gas exchange, the continuous exposure of the respiratory tract to the external environment, and the severe symptoms that can accompany respiratory compromise. Gas exchange requires patent airways, an effective musculoskeletal ventilatory pump, a thin alveolocapillary membrane, and adequate blood flow through the pulmonary circulation. In cancer patients, primary and metastatic tumors of the chest compromise major airways; pleural effusions externally compress the lungs and impair diaphragmatic function; direct, hematogenous, or lymphangitic spread of tumor replaces functioning lung parenchyma; resectional surgery reduces parenchymal volume; nonresectional surgery can transiently impair lung function; radiotherapy, chemotherapy, stem cell therapy, and infection injure the vulnerable alveolocapillary membrane; tumors directly or indirectly compromise the musculoskeletal pump; and venous thromboembolism (VTE) and pulmonary vasculopathy obstruct pulmonary blood flow. The normal respiratory system contains considerable physiologic reserve, such that surgical loss of one lung is generally well tolerated. However, in cancer patients, insults to multiple components of the respiratory system may result in progressive loss of physiologic reserve and increasing dyspnea. Dyspnea, cough, wheezing, stridor, chest pain, and hemoptysis are common symptoms in the cancer setting that lead to pulmonary consultation. In this chapter, we will discuss the pathophysiology, diagnosis, and management of the major respiratory complications of cancer and its therapy. We begin with the direct effects of cancer and cancer therapies on the lungs, review major indirect effects of cancer on the lungs, and end with respiratory failure in the cancer patient.

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Identification of a mast-cell-specific receptor crucial for pseudo-allergic drug reactions

Cited by 1,020 publications

References 34 publications

How do basic secretagogues activate mast cells?

How do basic secretagogues activate mast cells?

Evolving models of the immunopathogenesis of T cell–mediated drug allergy: The role of host, pathogens, and drug response

Respiratory Complications

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