Human Mast Cells Services

Advanced in vitro and ex vivo models to investigate mast cell biology and skin immune responses

In Vitro Mast Cell Studies

Reliable in vitro mast cell platform for allergy, safety, and efficacy studies

Genoskin provides integrated in vitro mast cell studies using primary human mast cells for evaluation of compound safety, allergenicity, and efficacy. Our assays are designed to investigate mast cell activation, degranulation, mediator release, and signaling pathways under controlled conditions. Unlike immortalized cell lines, studies are conducted exclusively on primary human mast cells, ensuring higher physiological relevance and improved translational value.

Our in vitro mast cell studies support a wide range of experimental endpoints, including:

Mast cell activation and degranulation
Quantification of mediators (histamine, cytokines)
Receptor-specific stimulation (e.g., FcεRI, MRGPRX2)
Screening of drug candidates, biologics, and mast cell stabilizers
Genoskin
Genoskin huma primary mast cell express typical mast cell receptors such as MRGPRX2, FceR1, cKIT

Why use primary human mast cells?

Higher physiological relevance than immortalized cell lines. Primary cells retain the receptors, granule content, and activation thresholds that matter.

Better prediction of clinical outcomes, reducing the risk of late-stage failures.

More accurate modeling of allergic and inflammatory responses across diverse donor backgrounds.

Workflow

Streamlined workflow for actionable data

Genoskin implements a standardised workflow to generate reliable and actionable data:

STEP 1:

Study Design
Our scientific team defines protocols, stimulation conditions, and analytical endpoints with you.

STEP 2:

Cell Preparation
Primary mast cells are prepared and pre-sensitized with IgE to mimic physiological conditions.

STEP 3:

Compound Exposure
Test articles or specific stimuli are applied to cells to induce and measure mast cell responses.

STEP 4:

Data Analysis
Mast cell activity is characterised via cytokine profiling, enzymatic assays, and flow cytometry.

STEP 5:

Data Reporting
Results are compiled into detailed reports with quantitative analysis and scientific interpretation.

Applications

Mast cell applications across allergy, safety, and mechanistic studies

Genoskin’s human skin models are standardized for consistent, immune-relevant inflammation readouts

Allergy and Hypersensitivity

Characterisation of mast cell activation pathways

Evaluation of anti-allergic drug candidates

Identification of mast cell stabilizers

We study efficacy for both biologics and small-molecule drugs and for different administration routes

Safety and Reactivity Assessment

Detection of compound-induced mast cell degranulation

Early identification of potential irritants or pseudo-allergenic effects

We provide cytokine-based immune profiling to evaluate therapeutic and prophylactic responses in human skin models

Mechanistic Studies

Investigation of signalling pathways involved in degranulation

Evaluation of inhibition strategies targeting mast cell activation

Case Study

MRGPRX2-mediated mast cell activation

In Vitro · MRGPRX2

Cetrorelix Triggers Mast Cell Degranulation via MRGPRX2

Cetrorelix induces mast cell degranulation via the MRGPRX2 pathway, validating the platform’s capability to study mast cell-mediated injection site reactions and drug hypersensitivity.

Explore the effects of your compound on human mast cells →

Degranulation quantified by β-hexosaminidase release. One-Way ANOVA with multiple comparisons. * p<0.05; ** p<0.01; *** p<0.001; **** p<0.0001

Ex Vivo Mast Cell Studies

Mast cell responses in an ex vivo human skin model

Tissue context changes everything

While in vitro systems provide mechanistic insights, mast cells function within a complex tissue environment involving interactions with keratinocytes, fibroblasts, neurons, and other types of immune cells.

Genoskin’s ex vivo human skin models preserve natural tissue architecture and cellular diversity, enabling mast cell studies in a fully functional human microenvironment.

This approach allows investigation of mast cell responses within intact skin, capturing biological interactions not reproducible in isolated in vitro cell systems.

Why use ex vivo skin models for mast cell studies?

Physiologically relevant immune and neuroimmune interactions
Natural skin architecture is preserved
More predictive than in vitro alone

Move beyond cell-based assays with human skin models

Mast cell depletion and modulation studies

Mast cells play dual roles in immunity, contributing to both protective responses and pathological conditions such as allergy and chronic inflammation. As a result, there is a strong interest in modulating or depleting mast cells in a controlled manner.

Mast cell depletion strategies include:

Targeting cKIT signaling pathways
Inducing receptor-mediated apoptosis
Using engineered antibodies to selectively eliminate mast cells

Understanding these mechanisms is critical for developing safe and targeted therapies.

Case Study

Assessing mast cell depletion in HypoSkin

Ex Vivo · HypoSkin® · MC Depletion

Fc-enhanced anti-KIT antibody depletes mast cells in human skin

Somatic gain-of-function mutations in c-KIT drive ligand-independent mast cell activation in mastocytosis. Fc-silent anti-KIT antibodies such as Barzolvolimab® block signalling but do not deplete malignant mast cells. The goal of this study was to evaluate whether an Fc-engineered anti-KIT monoclonal antibody could achieve effective mast cell depletion in human skin tissue.

Model: HypoSkin®
Test Articles: Fc-silent anti-hKIT antibody or Fc-enhanced anti-hKIT antibody, injected subcutaneously
Culture Duration: 7 days
Analysis: Quantification of mast cells in skin using FACS

Conclusions:

  • Fc-enhanced anti-KIT mAbs can deplete mast cells in ex vivo human skin models
  • HypoSkin is a relevant model to study mast cell depletion

Data extracted from Worrall et al., submitted

Data pooled from 3 independent experiments, n=3–4 individual skin donors. One-way ANOVA, Kruskal-Wallis multiple comparison.

2 variations for CTAs. Which one do you prefer?

Our ex vivo platform lets you validate mast cell targeting strategies in human skin tissue before entering clinical stages, reducing development risk.

Design your ex vivo mast cell study →

Our ex vivo platform lets you validate mast cell targeting strategies in human skin tissue before entering clinical stages, reducing development risk.

Design your ex vivo mast cell study →

FAQ

Frequently asked questions

Why use primary human mast cells?

Primary cells offer greater biological relevance and better clinical translatability than cell lines, making them more predictive for allergy, safety, and efficacy assessments.

Can studies be customised to specific pathways or targets?

Yes. All mast cell studies are fully customisable, including: specific receptors (FcεRI, MRGPRX2, KIT), biomarkers and readouts, and experimental conditions and stimulation protocols.

When should I use in vitro versus ex vivo models?

In vitro studies are best suited for mechanistic questions and compound screening under controlled conditions. Ex vivo skin models are the right choice when tissue context matters. For example, subcutaneous injection responses, neuroimmune interactions, or mast cell depletion strategies. Many programmes benefit from both approaches in sequence.
Get Started

Start your mast cell study

Whether you are screening compounds or validating advanced therapies, our team will design a study tailored to your needs.