Identifying Predictors Of Response To Mepolizumab In CRSwNP — ISS-RESMEPO  

Chronic Rhinosinusitis With Nasal Polyps Clinical Trial

Official title: Identifying Predictors Of Long-Lasting Response To Mepolizumab In CRSwNP: Is The Disease-Modifying Role Secondary To Restored Anti-Viral Activity Or Enhanced Epithelial Regeneration?

Status Recruiting

Clinical Trial Summary

The investigators propose a real-world study to assess the mechanism of action of long-lasting response to mepolizumab in patients with chronic rhinosinusitis with nasal polyposis (CRSwNP) and identify clinically useful predictors of response.

Mepolizumab is a monoclonal antibody targeting IL-5 and is approved for use in asthma and CRSwNP. In clinical studies, 12 months of treatment with mepolizumab improved signs and symptoms of CRSwNP and reduced the need for surgery. While several biologic medications targeting facets of the Type 2 mechanism are currently indicated for chronic rhinosinusitis with nasal polyps mepolizumab alone appears capable of modifying the disease's biological behaviour and producing long-standing improvements after the cessation of treatment. In the mepolizumab for CRSwNP regulatory trial (SYNAPSE), a subset of patients experienced dramatic and long-lasting, which is over 48 months after cessation of administration of the investigational medicinal product (IMP) in our experience. This has been partially captured in a follow-on study to the registration trail, which showed that a subset of patients followed for 24 weeks after cessation of biologic therapy (with continued use of mometasone furoate) demonstrated persistent improvements over baseline.

However, the mechanism of the long-lasting effect in a subset of patients is not well understood, and it is impossible currently to identify patients who will derive this maximal benefit. The mechanism for the prolonged improvements in CRSwNP seen in certain patients with mepolizumab remains to be established but suggests that effects beyond eosinophil trafficking are implicated.

The investigators believe that mepolizumab has IL-5-mediated pleiotropic effects which contribute to disease modification with effects extending beyond eosinophil activation and trafficking. This may include the following primary or secondary effects:

i) Improving epithelial barrier function ii) Altering mast cell dynamics iii) Reversing epigenetic modifications iv) Altering the immune response to better clear pathogenic bacteria or viruses.

Clinical Trial Description

Study Rationale:

The investigators propose an ambitious research program to investigate the underlying mechanism of action of the prolonged responses to treatment with mepolizumab in patients with CRSwNP seen in the SYNAPSE trial. In addition, the investigators seek to establish the link between viral disease and eosinophilia, based upon a concept of viral interference with immunologic response inspired by findings from the COVID-19 pandemic.

Study Design:

In this monocentric prospective cohort study, two seasoned investigators will assess the disease-modifying effects of mepolizumab on CRSwNP. This study aims to identify in a ''real-world'' setting the mechanisms underpinning the prolonged response to mepolizumab and identify biomarkers predictive of prolonged response. Thirty-six patients with CRSwNP unresponsive to medical and surgical treatment will be treated with twelve months of mepolizumab in an unblinded and nonrandomized fashion (open-label).

The response will be assessed with usual clinical parameters, including sino-nasal endoscopy. The mechanism of response will be explored in depth before and 6 months after the beginning of treatment with a multiomic approach. The long-term effect will be assessed by clinical assessment only.

1. Determine the mechanism of action of mepolizumab in CRSwNP with multiomics. The investigators will explore the critical mechanisms that contribute to transcription patterns in diseased tissue in a cell-type-specific perspective and explore whether viral infection contributes to CRS. Simultaneous profiling of gene expression and open chromatin from the same cell will be used to capture epigenetic modifications in identified cell clusters by RNA-seq combined with an assay for transposase-accessible chromatin (Chromium Single-Cell Multiome ATAC + Gene expression, 10X Genomics).

2. Confirm improved epithelial regeneration and repair following mepolizumab treatment via in vitro functional assessment of epithelial capacity for regeneration.

Using in vitro wound healing models, the investigators will evaluate the proliferation and cell migration of PEC from patients' nasal polyp biopsy prior to and 6 months after the beginning of treatment. Each time point will be assessed in triplicate on petri (3 wells/ patient) along with cultures on Lab-Tek chamber slides for immunofluorescence assays. Functional assessment of the capacity of tissue repair will be assessed by the speed of repair following standardized injury. Immunofluorescence will assess the markers of the epithelium (tubulin, cadherin, vimentin etc.) and epithelial function (tight junction, zonula occludens, integrins etc.) and by the presence of proliferation markers (Ki-67) at the wound site.

3. Identify associated epigenetic marks of response which can serve as potential biomarkers of the responder population.

As described above, epigenetic modulation of the genome will be assessed at the single-cell level in multiomic profiling. In order to restrict epigenetic profiling to epigenetic modifications which may have a use as biomarkers, DNA methylation profiling will be performed by DNA MethylationEPIC Beadchip to identify putative biomarkers of response to treatment and identify methylation-related regulatory mechanisms.

4. Characterise the impact of mepolizumab on viruses by defining a library of viruses present in CRSwNP and comparing their levels pre- and post-treatment with mepolizumab.

The investigators will perform sequenced-based profiling using deep sequencing technologies (Illumina high-throughput RNA sequencing) to reveal candidate viral pathogens using an existing pre-COVID biobank of CRSwNP tissue in our institution to define the type of viruses present in CRSwNP. Similarly, viruses will be assessed in the population undergoing treatment with mepolizumab to assess whether treatment influences viral burden and specific viruses.

5. Identify epigenetic marks associated with the presence of different viruses which can serve as markers of prior viral infection.

The investigators will investigate the specific association between viruses and epigenetic marks with the integrative analysis of the resulting data using epigenomics and transcriptomics methods.

There will be a follow-up of patients over 12 months. ;

Related Conditions & MeSH terms

• Chronic Rhinosinusitis With Nasal Polyps
• Nasal Polyps

• NCT number: NCT05902325
• Study type: Interventional
• Source: Centre hospitalier de l'Université de Montréal (CHUM)
• Contact: Martin Yvon Desrosiers, MD
• Phone: 514-890-8000
• Email: desrosiers_martin@hotmail.com
• Status: Recruiting
• Phase: Phase 4
• Start date: October 3, 2023
• Completion date: December 31, 2026