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Quantitative systems pharmacology modeling of macrophage‐targeted therapy combined with <scp>PD‐L1</scp> inhibition in advanced <scp>NSCLC</scp>

Hanwen Wang, Theinmozhi Arulraj, Samira Anbari, Aleksander S. Popel

2024Clinical and Translational Science13 citationsDOIOpen Access PDF

Abstract

Immune checkpoint inhibitors remained the standard-of-care treatment for advanced non-small cell lung cancer (NSCLC) for the past decade. In unselected patients, anti-PD-(L)1 monotherapy achieved an overall response rate of about 20%. In this analysis, we developed a pharmacokinetic and pharmacodynamic module for our previously calibrated quantitative systems pharmacology model (QSP) to simulate the effectiveness of macrophage-targeted therapies in combination with PD-L1 inhibition in advanced NSCLC. By conducting in silico clinical trials, the model confirmed that anti-CD47 treatment is not an optimal option of second- and later-line treatment for advanced NSCLC resistant to PD-(L)1 blockade. Furthermore, the model predicted that inhibition of macrophage recruitment, such as using CCR2 inhibitors, can potentially improve tumor size reduction when combined with anti-PD-(L)1 therapy, especially in patients who are likely to respond to anti-PD-(L)1 monotherapy and those with a high level of tumor-associated macrophages. Here, we demonstrate the application of the QSP platform on predicting the effectiveness of novel drug combinations involving immune checkpoint inhibitors based on preclinical or early-stage clinical trial data.

Topics & Concepts

MedicinePharmacokineticsBlockadePharmacodynamicsPharmacologyCombination therapyOncologyImmune systemSystems pharmacologynon-small cell lung cancer (NSCLC)Clinical trialLung cancerDrugInternal medicineImmunologyReceptorA549 cellCancer Immunotherapy and BiomarkersImmune cells in cancerPhagocytosis and Immune Regulation
Quantitative systems pharmacology modeling of macrophage‐targeted therapy combined with <scp>PD‐L1</scp> inhibition in advanced <scp>NSCLC</scp> | Litcius