High levels of PD-L1 on platelets of NSCLC patients contributes to the pharmacological activity of Atezolizumab

Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of NSCLC patients at different TNM stage. We found that PLTs count and the expression of PD-L1 (pPD-L1) were significantly higher in NSCLC pati...

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Published in	Biomedicine & pharmacotherapy Vol. 168; p. 115709
Main Authors	Colarusso, Chiara, Falanga, Anna, Terlizzi, Michela, De Rosa, Ilaria, Somma, Pasquale, Sommella, Eduardo Maria, Caponigro, Vichy, Panico, Luigi, Salviati, Emanuela, Campiglia, Pietro, Salatiello, Giuseppe, Tramontano, Teresa, Maiolino, Piera, Pinto, Aldo, Sorrentino, Rosalinda
Format	Journal Article
Language	English
Published	Elsevier Masson SAS 01.12.2023
Subjects	Immunotherapy Non-small cell lung cancer (NSCLC) Platelets (PLTs) Survival rate Tumor progression Survival rate Immunotherapy Non-small cell lung cancer (NSCLC) Tumor progression Platelets (PLTs)
Online Access	Get full text
ISSN	0753-3322 1950-6007 1950-6007
DOI	10.1016/j.biopha.2023.115709

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Abstract	Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of NSCLC patients at different TNM stage. We found that PLTs count and the expression of PD-L1 (pPD-L1) were significantly higher in NSCLC patients at Stage IV than Stage I-III and healthy subjects. The presence of high pPD-L1 was associated to upregulated genes for the extracellular matrix organization and tumor immunosuppression. When patients’ survival was correlated to the levels of pPD-L1, longer survival rate was observed, but not when progression disease occurred. The in vitro stimulation of pPD-L1 with Atezolizumab induced CXCL4 release, accompanied by higher levels of TGFβ at the time of drug resistance when the levels of CD16, CD32 and CD64 significantly increased. Leiden-clustering method defined the phenotype of PLTs which showed that the ezrin-radixin-moesin (ERM) family proteins, underlying the PD-L1 signalosome, were involved in high pPD-L1 and higher survival rate. These data imply that Stage IV NSCLC patients characterized by high pPD-L1 are associated with longer progression-free survival rate because the blockade of pPD-L1 by Atezolizumab avoids the exacerbation of a T cell-mediated immune-suppressive environment. pPD-L1 could be an easy-to-use clinical approach to predict ICI responsiveness. [Display omitted] •NSCLC patients can be differentiated according to the level of PD-L1 on PLTs.•Stage IV patients with higher levels of pPD-L1 had longer progression-free survival probability than patients with low pPD-L1 because of the PD-L1 signalosome.•The in vitro interaction of pPD-L1 with atezolizumab inhibits PLTs to induce an immunosuppressive environment, but PLTs of patients treated with ICIs have lower levels of pPD-L1.•pPD-L1 can represent an easy-to-use clinical approach to predict ICI responsiveness.
AbstractList	Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of NSCLC patients at different TNM stage. We found that PLTs count and the expression of PD-L1 (pPD-L1) were significantly higher in NSCLC patients at Stage IV than Stage I-III and healthy subjects. The presence of high pPD-L1 was associated to upregulated genes for the extracellular matrix organization and tumor immunosuppression. When patients' survival was correlated to the levels of pPD-L1, longer survival rate was observed, but not when progression disease occurred. The in vitro stimulation of pPD-L1 with Atezolizumab induced CXCL4 release, accompanied by higher levels of TGFβ at the time of drug resistance when the levels of CD16, CD32 and CD64 significantly increased. Leiden-clustering method defined the phenotype of PLTs which showed that the ezrin-radixin-moesin (ERM) family proteins, underlying the PD-L1 signalosome, were involved in high pPD-L1 and higher survival rate. These data imply that Stage IV NSCLC patients characterized by high pPD-L1 are associated with longer progression-free survival rate because the blockade of pPD-L1 by Atezolizumab avoids the exacerbation of a T cell-mediated immune-suppressive environment. pPD-L1 could be an easy-to-use clinical approach to predict ICI responsiveness.Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of NSCLC patients at different TNM stage. We found that PLTs count and the expression of PD-L1 (pPD-L1) were significantly higher in NSCLC patients at Stage IV than Stage I-III and healthy subjects. The presence of high pPD-L1 was associated to upregulated genes for the extracellular matrix organization and tumor immunosuppression. When patients' survival was correlated to the levels of pPD-L1, longer survival rate was observed, but not when progression disease occurred. The in vitro stimulation of pPD-L1 with Atezolizumab induced CXCL4 release, accompanied by higher levels of TGFβ at the time of drug resistance when the levels of CD16, CD32 and CD64 significantly increased. Leiden-clustering method defined the phenotype of PLTs which showed that the ezrin-radixin-moesin (ERM) family proteins, underlying the PD-L1 signalosome, were involved in high pPD-L1 and higher survival rate. These data imply that Stage IV NSCLC patients characterized by high pPD-L1 are associated with longer progression-free survival rate because the blockade of pPD-L1 by Atezolizumab avoids the exacerbation of a T cell-mediated immune-suppressive environment. pPD-L1 could be an easy-to-use clinical approach to predict ICI responsiveness. Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of NSCLC patients at different TNM stage. We found that PLTs count and the expression of PD-L1 (pPD-L1) were significantly higher in NSCLC patients at Stage IV than Stage I-III and healthy subjects. The presence of high pPD-L1 was associated to upregulated genes for the extracellular matrix organization and tumor immunosuppression. When patients’ survival was correlated to the levels of pPD-L1, longer survival rate was observed, but not when progression disease occurred. The in vitro stimulation of pPD-L1 with Atezolizumab induced CXCL4 release, accompanied by higher levels of TGFβ at the time of drug resistance when the levels of CD16, CD32 and CD64 significantly increased. Leiden-clustering method defined the phenotype of PLTs which showed that the ezrin-radixin-moesin (ERM) family proteins, underlying the PD-L1 signalosome, were involved in high pPD-L1 and higher survival rate. These data imply that Stage IV NSCLC patients characterized by high pPD-L1 are associated with longer progression-free survival rate because the blockade of pPD-L1 by Atezolizumab avoids the exacerbation of a T cell-mediated immune-suppressive environment. pPD-L1 could be an easy-to-use clinical approach to predict ICI responsiveness. [Display omitted] •NSCLC patients can be differentiated according to the level of PD-L1 on PLTs.•Stage IV patients with higher levels of pPD-L1 had longer progression-free survival probability than patients with low pPD-L1 because of the PD-L1 signalosome.•The in vitro interaction of pPD-L1 with atezolizumab inhibits PLTs to induce an immunosuppressive environment, but PLTs of patients treated with ICIs have lower levels of pPD-L1.•pPD-L1 can represent an easy-to-use clinical approach to predict ICI responsiveness.
ArticleNumber	115709
Author	Panico, Luigi Pinto, Aldo Falanga, Anna Caponigro, Vichy Sommella, Eduardo Maria Colarusso, Chiara Salatiello, Giuseppe Terlizzi, Michela Sorrentino, Rosalinda De Rosa, Ilaria Maiolino, Piera Campiglia, Pietro Somma, Pasquale Salviati, Emanuela Tramontano, Teresa
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Keywords	Survival rate Immunotherapy Non-small cell lung cancer (NSCLC) Tumor progression Platelets (PLTs)
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Snippet	Several studies have associated platelets (PLTs) to NSCLC prognosis. To understand the role of PLTs in immunotherapy-treated patients, we used blood samples of...
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SubjectTerms	Immunotherapy Non-small cell lung cancer (NSCLC) Platelets (PLTs) Survival rate Tumor progression
Title	High levels of PD-L1 on platelets of NSCLC patients contributes to the pharmacological activity of Atezolizumab
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