CC Chemokine Receptors in Lung Adenocarcinoma: The Inflammation-Related Prognostic Biomarkers and Immunotherapeutic Targets.

BACKGROUND: Lung adenocarcinoma (LUAD) is the most common type of lung cancer with a high incidence and increased mortality. CC chemokine receptors were participating in the modulation of the tumor microenvironment and involved in carcinogenesis and tumor development. However, the potential mechanistic values of CC chemokine receptors as clinical biomarkers and therapeutic targets in LUAD have not been fully clarified.
METHODOLOGY: ONCOMINE, UALCAN, GEPIA, Kaplan-Meier Plotter, SurvExpress, MethSurv, SurvivalMeth, cBioPortal, String, GeneMANIA, DAVID, Metascape, TRRUST, LinkedOmics, and Timer were applied in this work.
RESULTS: The transcriptional levels of CCR1/10 in LUAD tissues were significantly reduced while the transcriptional levels of CCR3/6/7/8 were significantly elevated, and the expression of CCR1 was the highest in LUAD among these CC chemokine receptors. A significant correlation was found between the expression of CCR2/4/6/7 and the pathological stage of LUAD patients. There were significant associations between CCR2/3/4/5/6/10 expression levels and OS in LUAD, and LUAD patients with high transcriptional levels of CCR3/4 had inferior first-progression survival. In addition, the prognostic values of CC chemokine receptors signature in LUAD were explored in three independent cohorts, the high-risk group displayed unfavorable OS compared with the low-risk group, and the LUAD cases in the high-risk group also suffered inferior RFS than that in the low-risk group. And for the prognostic value of the DNA methylation of CC chemokine receptors, we found 1 CpG of CCR2, 2 CpGs of CCR3, 1 CpG of CCR4, 3 CpGs of CCR6, 3 CpGs of CCR7, 1 CpG of CCR8, and 3 CpGs of CCR9 were significantly associated with prognosis in LUAD patients. However, the DNA methylation signature analysis showed there was no statistically significant association between the high- and low-risk group. For potential mechanism, the neighbor gene networks, interaction analyses, functional enrichment analyses of CC chemokine receptors in LUAD were performed, the transcription factor targets, kinase targets, and miRNA targets of CC chemokine receptors were also identified in LUAD. We also found significant correlations among CC chemokine receptors expression and the infiltration of immune cells, the tumor infiltration levels among LUAD with different somatic copy number alterations of these chemokine receptors were also assessed. Moreover, the Cox proportional hazard model showed that CCR1/2/10, B_cell, CD4_Tcell were significantly related to the clinical outcome of LUAD patients.
CONCLUSION: CC chemokine receptors might serve as immunotherapeutic targets and prognostic biomarkers in LUAD.

Introduction

Lung cancer is the most common cancer worldwide, and it accounts for 18.4% of all deaths from cancer worldwide.1 The 5-year survival rate of lung cancer patients is relatively low, only 19%.2 And lung adenocarcinoma (LUAD) is a major subtype of lung cancer, accounts for approximately 40% of all cases with this disease.3 It is worth noting that up to about 75% of patients were at an advanced stage at the time of diagnosis.4 Although some treatment technologies and drugs have made great progress recently, the long-term survival rate of LUAD patients remains unsatisfactory.5,6 And there is also a big challenge to conduct more accurate risk assessments and optimize treatments for LUAD patients.7,8 Therefore, it is an urgent need to develop and identify more therapeutic targets and prognostic biomarkers for LUAD.

CC chemokine receptors, namely beta chemokine receptors, are a part of the G protein-linked receptor superfamily which is known as seven-(pass)-transmembrane domain receptors.9 CC chemokine receptors are membrane proteins, they could specifically bind to CC chemokine family cytokines. They represent a typical subfamily of chemokine receptors. According to the IUIS/WHO Subcommittee on Chemokine Nomenclature, a total of ten members of CC chemokine receptors, CCR1 to CCR10, are named.10,11 The CC chemokine receptors play multiple important roles in various biological processes, including the regulation of leukocyte chemotaxis, recruitment of immune cells, inflammation and parenchymal remodeling, tumorigenesis, and progression.12–16 Expressed on tumor cells and peripheral blood cells, immune cells, and stromal cells, CC chemokine receptors play prominent roles in determining the composition of tumor stroma, are also closely related to angiogenesis, tumor growth and, metastasis,17–21 thus affecting disease progression, therapeutic effect, and clinical outcomes directly or indirectly. CC chemokine receptors can be activated by binding to the related chemokines and applied as potential therapeutic targets, and prognostic indicators for various kinds of malignant tumors, including lung adenocarcinoma.21–26

Although the expression and functions of certain CC chemokine receptors have been reported in some studies, the general characterizes of all CC chemokine receptors as targets and biomarkers in LUAD are largely unclear. A synthetical analysis of the roles of CC chemokine receptors in LUAD has become urgent at present. Now it is feasible through second-generation sequencing technology and advanced bioinformatics methods. In this study, we performed an in-depth and comprehensive analysis of the potential values of CC chemokine receptors as clinical markers and immunotherapeutic targets in LUAD based on multiple large bioinformatics databases, thus providing clinicians with additional information to help them choose more appropriate drugs and more accurately assess the prognosis of LUAD patients.

Materials and Methods

ONCOMINE

ONCOMINE () is a translational bioinformatics service that provides powerful, genome-wide expression analysis.27 Data were extracted to evaluate the expression of CC chemokine receptors in lung cancer. And the analyses that meet the thresholds for CC chemokine receptors were further reviewed for lung adenocarcinoma (LUAD). In this study, a P 0.05, a fold change of 1.5 were set as the significance thresholds. The data type was selected mRNA. t‑Test was used to analyze the difference in the expression of CC chemokine receptors in LUAD.

UALCAN

UALCAN (), a comprehensive and interactive web resource, provides easy access to publicly available cancer OMICS data (TCGA and MET500).28 In our study, CC chemokine receptors level was obtained in the “Expression” links using the “TCGA analysis” module and the “LUAD” dataset.

GEPIA

GEPIA () is a developed interactive web server for analyzing the RNA sequencing expression data of 9736 tumors and 8587 normal samples from the TCGA and the GTEx project.29 In this study, we performed the pathological stage analysis and multiple gene comparison analysis of CC chemokine receptors using the “LUAD” dataset. And the correlation between CC chemokine receptors expression and disease-free survival (DFS) was also calculated.

Kaplan–Meier Plotter

Kaplan–Meier Plotter () is a useful prognostic biomarker assessment tool that explored the effect of 54k genes on survival in 21 cancer types using the databases from GEO, EGA, and TCGA.30 To analyze the prognostic value of CC chemokine receptors in lung cancer regarding OS (overall survival), FP (first progression), and PPS (post-progression survival), the patient samples were split into two groups by the median expression, with the restricted analysis to subtype histology (adenocarcinoma), the JetSet best probe set was used, and the biased arrays were excluded for array quality control. The hazard ratio with 95% confidence intervals and log-rank P value were calculated.

SurvExpress

SurvExpress () is a friendly and versatile free web tool, it could provide a comprehensive analysis of multi-gene biomarkers for gene expression and clinical outcomes in human tumors.31 In this study, two training cohorts (GSE31210, 226 patients; Chitale Lung, 185 patients) and one validation cohort (TCGA, 475 patients) were used to explore the prognostic value of CC chemokine receptors signature in LUAD patients.

MethSurv

MethSurv (), a web tool for survival analysis based on CpG methylation patterns, was applied to explore the prognostic value of single CpG methylation of the CC chemokine receptors in LUAD patients.32

SurvivalMeth

SurvivalMeth ()33 was used to analyze the DNA methylation of CC chemokine receptors signature on LUAD prognosis.

cBioPortal

cBioPortal () is a comprehensive web resource that could visualize and analyze multidimensional cancer genomics data.34,35 Based on the TCGA database, genetic alterations of CC chemokine receptors were obtained from cBioPortal. Five hundred eighty-six lung adenocarcinoma samples (TCGA, Firehose Legacy) were analyzed. mRNA expression z scores (RNA Seq V2 RSEM) were obtained using a z score threshold of ±2.0. The top 50 most frequently altered neighbor genes associated with CC chemokine receptors were isolated.

String

STRING () is a database of known and predicted protein–protein interactions (PPI).36,37 We conducted a PPI network analysis of CC chemokine receptors to explore their interactions with STRING.

GeneMANIA

GeneMANIA () is a useful website that provides information for co-expression, co-localization, genetic and protein interactions, pathways, physical interaction, shared protein domains of submitted genes.38

DAVID

DAVID 6.8 () is a comprehensive bioinformatics resource for biological functional annotation.39,40 In this study, the Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis were performed with the CC chemokine receptors, and closely related neighbor genes were isolated from cBioPortal.

Metascape

Metascape () is a reliable public service that provides a biologist-oriented resource for the analysis of systems-level datasets.41 In this study, the “Express Analysis” module was used to further verify the enrichment of CC chemokine receptors and their related most frequently altered neighbor genes.

TRRUST

TRRUST () is a manually curated database of human and mouse transcriptional regulatory networks. It contains 8444 and 6552 TF-target regulatory relationships of 800 human TFs and 828 mouse TFs, respectively. TRRUST database was used for the regulatory relationships of CC chemokine receptors genes.42,43

LinkedOmics

LinkedOmics () is a publicly available portal that includes multi-omics data from all 32 TCGA Cancer types.44 In this study, TCGA_LUAD dataset was used in the “LinkInterpreter” module. Gene Set Enrichment Analysis (GSEA) tool was applied to explore the kinase target and miRNA target enrichment of CC chemokine receptors in the LUAD, with a minimum number of genes (size) of 3 and a simulation of 500. Results were analyzed statistically using the Spearman correlation test. The P-value cutoff was 0.05.

Timer

Timer web server () is a comprehensive resource for systematical analysis of the infiltration of different immune cells and their clinical impact across diverse cancer types.45,46 “Gene module” and “Survival module” were used in this study to explore the correlation of CC chemokine receptors level and the immune cell infiltration, the clinical outcome in LUAD, respectively. “SCNA module” was used to explore the correlation between somatic copy number alterations and abundance of immune infiltrates.

Results

Expression of CC Chemokine Receptors in the Lung Adenocarcinoma

First, we explored the expression levels of CC chemokine receptors in lung cancer and normal lung tissues using the ONCOMINE database (Figure 1). And the analyses that meet the thresholds for CC chemokine receptors were further reviewed according to the histopathological type (lung adenocarcinoma vs normal). As shown in , the transcriptional levels of CCR1 and CCR2 in LUAD tissues were significantly reduced, while the transcriptional levels of CCR4, CCR7, and CCR8 were significantly increased in LUAD vs normal lung tissue. For CCR6, three datasets suggested that the transcriptional levels of CCR6 in LUAD tissues were significantly elevated, while one dataset showed it was significantly reduced in LUAD tissue.

Figure 1

The mRNA levels of CC chemokine receptors in lung cancer (ONCOMINE).

The expression levels of CC chemokine receptors in LUAD were also assessed with UALCAN. As expected, the transcriptional levels of CCR1 (P = 1.824E-05), and CCR10 (P = 1.528E-08) in LUAD tissues were significantly reduced, while the transcriptional levels of CCR3 (P = 5.402E-03), CCR6 (P = 1.176E-02), CCR7 (P = 4.060E-02) and CCR8 (P < 1E-12) were significantly elevated (Figure 2).

Figure 2

The transcription levels of CC chemokine receptors in LUAD (UALCAN).

We also compared the relative expression levels of CC chemokine receptors in LUAD and found the relative expression of CCR1 was the highest in LUAD tissues among all CC chemokine receptors (Figure 3).

Figure 3

The relative expression level of CC chemokine receptors in LUAD (GEPIA).

We then assessed the correlation between the expression of CC chemokine receptors and the pathological stage of LUAD patients, and found a significant correlation between the expression of CCR2 (P = 0.027), CCR4 (P = 0.0336), CCR6 (P = 0.00242), CCR7 (P = 0.00387) and pathological stage (Figure 4), as LUAD progressed, the expression of CCR2, CCR4, CCR6, and CCR 7 decreased. These data suggested that these CC chemokine receptors played significant roles in the development of LUAD.

Figure 4

Correlation between CC chemokine receptors and the pathological stage of LUAD patients (GEPIA).

The Prognostic Value of Individual CC Chemokine Receptor in Patients with LUAD

To evaluate the prognostic value of CC chemokine receptors in LUAD, we assessed the correlation between these chemokine receptors and prognosis using Kaplan–Meier Plotter (Table 1). Overall survival curves are presented in Figure 5. Among them, there were significant associations between these chemokine receptors (CCR2, CCR3, CCR4, CCR5, CCR6, and CCR10) and OS in LUAD. High expression of CCR2, CCR3, CCR4, CCR10 indicated shorter OS, while high expression of CCR5, CCR6 indicated longer OS in LUAD cases.

Table 1

The Relationship Between the Expression Level of CC Chemokine Receptors and Prognosis in Patients with LUAD

	Kaplan–Meier Plotter (Logrank P)			GEPIA (Logrank P)
	OS	FP	PPS	DFS
CCR1	0.1700	0.1200	0.0520	0.7300
CCR2	0.0081	0.4900	0.7700	0.0530
CCR3	0.0470	0.0026	0.2400	0.4000
CCR4	0.0460	3e-04	0.5900	0.3100
CCR5	1e-04	0.0790	0.1400	0.2000
CCR6	0.0450	0.5000	0.2900	0.1900
CCR7	0.4600	0.7300	0.9600	0.2500
CCR8	0.7100	0.5300	0.2100	0.3700
CCR9	0.9500	0.7000	0.5100	0.6700
CCR10	0.0360	0.4800	0.4500	0.5500

Abbreviations: LUAD, lung adenocarcinoma; CCR1-CCR10, C-C chemokine receptor type 1- C-C chemokine receptor type 10; OS, overall survival; FP, first progression; PPS, post-progression survival; DFS, disease-free survival.

Figure 5

Overall survival curves for the expression of CC chemokine receptors in LUAD patients (Kaplan–Meier Plotter).

The first-progression survival curves are presented in Figure 6. LUAD patients with high transcriptional levels of CCR3 (P = 0.0026) and CCR4 (P = 3e-04) were significantly associated with inferior first-progression survival. However, no significant difference was found between the CC chemokine receptors and PPS or DFS in LUAD patients (Table 1).

Figure 6

First-progression survival curves for the expression of CC chemokine receptors in LUAD patients (Kaplan–Meier Plotter).

Prognostic Values of CC Chemokine Receptors Signature in Patients with LUAD

The CC chemokine receptors signature was input for prognostic analysis in SurvExpress. For OS, in the training cohort 1 (GSE31210, 226 patients), the mRNA expression of CCR2, CCR6, CCR9 was higher in the low-risk group than that in the high-risk group, while, CCR1, CCR8, and CCR10 were lower expressed in the low-risk group than that in the high-risk group (Figure 7A-B), the high-risk group displayed an unfavorable OS compared with the low-risk group (Figure 7C). Similarly, these results were also displayed in the training cohort 2 (Chitale Lung, 185 patients) (Figure 7D-F), the high-risk group had a worse OS compared with the low-risk group (Figure 7F). And the prognostic value of CC chemokine receptors signature in LUAD was also confirmed in the validation cohort (TCGA, 475 patients) (Figure 7G-I). Besides, for recurrence-free survival (RFS), the LUAD cases in the high-risk group suffered inferior RFS than that in the low-risk group ().

Figure 7

The prognostic values of CC chemokine receptors signature for OS in LUAD cases from the training cohort 1 (GSE31210, 226 patients), training cohort 2 (Chitale Lung, 185 patients), and validation cohort (TCGA, 475 patients) via SurvExpress platform.

Prognostic Value of Single CpG of CC Chemokine Receptors Gene

The prognostic value of DNA methylation of CC chemokine receptors in LUAD was analyzed by MethSurv. The heat maps of DNA methylation of the CC chemokine receptor are displayed in Figure 8. Among them, cg01297500 of CCR1, cg11313065 of CCR2, cg11126313 of CCR3, cg11126313 of CCR3, cg21366834 of CCR4, cg15239694 of CCR5, cg19668990 of CCR6, cg11729107 of CCR7, cg11492964 of CCR8, cg14558191 of CCR9, and cg06864083 of CCR10 showed the highest DNA methylation level. And overall, we found that 1 CpG of CCR2, 2 CpGs of CCR3, 1 CpG of CCR4, 3 CpGs of CCR6, 3 CpGs of CCR7, 1 CpG of CCR8, and 3 CpGs of CCR9 were significantly associated with prognosis in LUAD patients (Table 2).

Figure 8

The heat map of DNA methylation clustered expression level of CC chemokine receptor genes (MethSurv).

Table 2

The Prognostic Value of Single CpG of CC Chemokine Receptors in LUAD by MethSurv (P<0.05)

Gene-CpG	HR	LR Test P-value
CCR2-3ʹUTR-Body-Open_Sea-cg21759685	0.681	0.024
CCR3-3ʹUTR-Open_Sea-cg03050629	0.694	0.04
CCR3-TSS1500-Open_Sea-cg04111761	0.676	0.029
CCR4-TSS1500-Open_Sea-cg16752389	0.701	0.049
CCR6-5ʹUTR-TSS200-Open_Sea-cg01646461	1.401	0.037
CCR6-5ʹUTR-TSS200-Open_Sea-cg21794222	1.496	0.012
CCR6-5ʹUTR-Open_Sea-cg07513332	0.702	0.028
CCR7-Body-Open_Sea-cg16047279	1.469	0.049
CCR7-TSS1500-Open_Sea-cg13504059	1.375	0.046
CCR7-3ʹUTR-Open_Sea-cg23663547	1.849	0.0014
CCR8-TSS1500-Open_Sea-cg26647600	1.493	0.036
CCR9-TSS1500-Open_Sea-cg06519172	1.509	0.035
CCR9-TSS1500-Open_Sea-cg27198997	0.696	0.024
CCR9-TSS200-Open_Sea-cg10475172	0.633	0.0088

Abbreviations: LUAD, lung adenocarcinoma; HR, hazard ratio; LR test, likelihood-ratio test.

Prognostic Value of the DNA Methylation of CC Chemokine Receptor Signature

The gene symbols of ten CC chemokine receptors (CCR1 to CCR10) were input for prognostic analysis in SurvivalMeth. As shown in Figure 9A-C, the significant expression patterns were found in CCR1/2/3/5/7/8/9 between low- and high-risk groups (Figure 9A). And the heatmap showed that the DNA methylation level of CCR3 was the highest, while CCR10 was the lowest (Figure 9B). However, no statistically significant association was found between the high- and low-risk groups (P=0.1664281723) (Figure 9C).

Figure 9

The prognostic value of the DNA methylation of CC chemokine receptor signature in LUAD via SurvivalMeth.

Genetic Alteration, Co-Expression, Protein/Gene Interaction Analyses of CC Chemokine Receptors in Patients with LUAD

A comprehensive analysis of the molecular characteristics of CC chemokine receptors was further performed. First, the genetic alterations of these CC chemokine receptors were analyzed with cBioPortal. As a result, CCR1, CCR2, CCR3, CCR4, CCR5, CCR6, CCR7, CCR8, CCR9, and CCR10 were altered in 3%, 5%, 4%, 4%, 4%, 5%, 2.9%, 5%, 3%, and 0.6% of the LUAD samples, respectively (Figure 10A). Enhanced mRNA expression of CC chemokine receptors, as the most common change, was found in these samples. Then, the potential co-expression of CC chemokine receptors was explored, as displayed in Figure 10B, there was a moderate to strong correlation among the expression of CCR4, CCR5, CCR6, CCR7, and CCR8.

Figure 10

The genetic alteration, neighbor gene network, and interaction analyses of CC chemokine receptors in LUAD patients.

Moreover, PPI network analysis of CC chemokine receptors was conducted with STRING.

As expected, 10 nodes and 36 edges were obtained in the PPI network (Figure 10C). Results of GeneMANIA also revealed that the functions of these CC chemokine receptors were primarily related to cytokine receptor activity, G-protein coupled chemoattractant receptor activity, chemokine-mediated signaling pathway, cytokine receptor activity, and G-protein coupled receptor activity, et al (Figure 10D).

Moreover, the top 50 genes with the highest frequency associated with CC chemokine receptors were got from cBioPortal. The data indicated that CCR1, CCR2, CCR3, CCR4, CCR5, CCR6, CCR7, CCR8, CCR9, CCR10, SEMA3E, CD33, TP53, PCDH15, TTN, ZNF804A, CPS1, KRAS, FLG, RYR2, ZFHX4, GRIN2A, COL15A1, DISP1, IRX1, RRM2, MBD1, ALK, ST6GAL2, ZNF292, TRRAP, MADD, AKAP11, COL6A6, DCDC1, PRDM9, EYS, ADAMTS3, PCNT, TAF1L, ACTN2, PKHD1L1, COL11A1, FMN2, NTRK3, OBSCN, LRP1B, PLXNC1, PPEF2, SKIV2L, EXO1, AGMO, TRPV2, SPHKAP, PDCD11, ZNF479, IQSEC3, PKHD1, KLHL14, and PTPRT were primarily connected with the modulation and function of CC chemokine receptors in LUAD (Figure 10E).

Functional Enrichment Analysis of CC Chemokine Receptors in Patients with LUAD

The functions of CC chemokine receptors and their neighboring genes were analyzed using DAVID 6.8 and Metascape. The significant highly enriched GO items (P<0.05) are shown in Figure 11A-B using DAVID 6.8.

Figure 11

The enrichment analysis of CC chemokine receptors and 50 most frequently altered neighboring genes in LUAD (David 6.8).

In the biological process (BP) category, the top 10 highly enriched GO items, including chemokine-mediated signaling pathway, chemotaxis, positive regulation of cytosolic calcium ion concentration, dendritic cell chemotaxis, immune response, cellular defense response, cell adhesion, collagen catabolic process, cellular calcium ion homeostasis, and sarcomere organization, were associated with the tumorigenesis and progression of LUAD (Figure 11A). In the cellular component (CC) category, integral component of plasma membrane, cell surface, external side of plasma membrane, Z disc, integral component of membrane, plasma membrane, collagen trimer were the most significantly highly enriched items (Figure 11A). In the molecular function (MF) category, the CC chemokine receptors and their neighboring genes were mainly enriched in chemokine receptor activity and related binding activities (Figure 11A). And as expected in KEGG pathway analysis (Figure 11B), hsa04062 (chemokine signaling pathway), hsa04060 (cytokine-cytokine receptor interaction), hsa05203 (viral carcinogenesis), hsa05223 (non-small cell lung cancer), hsa05230 (central carbon metabolism in cancer) were significantly related to the LUAD formation and progression. Also, the results of the functional enrichment analysis were confirmed using Metascape ().

Transcription Factor Targets, Kinase Targets, and miRNA Targets of CC Chemokine Receptors in Patients with LUAD

The possible transcription factor targets, kinase targets, and miRNA targets of the CC chemokine receptors were explored using the TRRUST and LinkedOmics databases. CCR1, CCR2, CCR3, CCR4, CCR5, CCR6, CCR7, CCR8, CCR9, and CCR10 were included in TRRUST. We found that four transcription factors (NR3C2, KLF2, RELA, and NFKB1) were associated with the regulation of CC chemokine receptors (Table 3). RELA and NFKB1 were the key transcription factors for CCR2, CCR3, CCR5, and CCR7. NR3C2 was the key transcription factor for CCR5 and CCR6. KLF2 was the key transcription factor for CCR5 and CCR7.

Table 3

Key Regulated Factors of CC Chemokine Receptors in LUAD (TRRUST)

Key TF	Description	Regulated Gene	P value	FDR
NR3C2	nuclear receptor subfamily 3, group C, member 2	CCR5, CCR6	6.48E-06	1.97E-05
KLF2	Kruppel-like factor 2 (lung)	CCR5, CCR7	1.69E-05	1.97E-05
RELA	v-rel reticuloendotheliosis viral oncogene homolog A (avian)	CCR2, CCR3, CCR5,CCR7	1.92E-05	1.97E-05
NFKB1	nuclear factor of kappa light polypeptide gene enhancer in B-cells 1	CCR2,CCR3,CCR5,CCR7	1.97E-05	1.97E-05

Abbreviations: LUAD, lung adenocarcinoma; TF, transcription factor; FDR, false discovery rate.

In addition, the top two kinase targets of CC chemokine receptors were identified from LinkedOmics (). Among these, only one kinase target, TNK2, was identified in the CCR5, SYK and LCK were the top two kinase targets in the CCR9, and components of the CCR3 kinase-target network were mainly associated with CDK1 and CHEK1.

The top two miRNA targets of CC chemokine receptors were also identified in LUAD, which is presented in . Among them, no significant miRNA targets were found in CCR6 and CCR8. And there was only one significant miRNA target in the CCR2 (MIR-208), CCR4 (MIR-184), CCR5 (MIR-517), and CCR7 (MIR-525) in LUAD. And two miRNA targets were found in CCR1 (MIR-208 and MIR-371), CCR3 (MIR-202 and MIR-205), CCR9 (MIR-191 and MIR-380-5P), and CCR10 (MIR-323 and MIR-522).

Immune Cell Infiltration of CC Chemokine Receptors in Patients with LUAD

CC chemokine receptors have been involved in cancer-related inflammation and the infiltration of immune cells, thus affecting the clinical outcome of LUAD patients. Therefore, the TIMER database was used to provide a comprehensive analysis of the correlation between CC chemokine receptors and immune cell infiltration. The results are presented in Figure 12. Except for CCR10, nine CC chemokine receptors expression (including CCR1, CCR2, CCR3, CCR4, CCR5, CCR6, CCR7, CCR8, and CCR9) positively correlated with infiltration of four immune cell types (CD8+ T cells, macrophages, neutrophils, and dendritic cells; all P < 0.05). Except for CCR3, the other nine CC chemokine receptors expression positively correlated with the infiltration of B cells, CD8+ T cells, and CD4+ T cells (all P < 0.05).

Figure 12

The correlation between CC chemokine receptors and immune cell infiltration in LUAD.

We also compared the tumor infiltration levels among LUAD with different somatic copy number alterations for the CC chemokine receptors, these results are displayed in . Moreover, the Cox proportional hazard model was applied for CC chemokine receptors and six tumor-infiltrating immune cells in LUAD. As shown in Table 4, CCR1 (P =0.022), CCR2 (P =0.001), CCR10 (P =0.046), B_cell (P = 0.011), and CD4_Tcell (P = 0.034) were found to be significantly related to the clinical outcome of LUAD patients.

Table 4

The Cox Proportional Hazard Model of CC Chemokine Receptors and Six Tumor-Infiltrating Immune Cells in LUAD (TIMER)

Coef	HR	95% CI_l	95% CI_u	P value	Sig
B_cell	−3.431	0.032	0.002	0.461	0.011	*
CD8_Tcell	1.097	2.994	0.356	25.2	0.313
CD4_Tcell	3.778	43.714	1.34	1426.315	0.034	*
Macrophage	−0.041	0.959	0.063	14.684	0.976
Neutrophil	−0.417	0.659	0.009	46.286	0.848
Dendritic	−0.419	0.658	0.148	2.925	0.582
CCR1	0.32	1.377	1.047	1.811	0.022	*
CCR2	−0.608	0.544	0.379	0.781	0.001	**
CCR3	−0.17	0.844	0.551	1.292	0.435
CCR4	0.01	1.01	0.685	1.49	0.961
CCR5	0.057	1.058	0.68	1.647	0.802
CCR6	−0.162	0.851	0.587	1.232	0.392
CCR7	−0.091	0.913	0.679	1.228	0.547
CCR8	0.306	1.358	0.782	2.36	0.277
CCR9	0.426	1.531	0.789	2.971	0.208
CCR10	−0.164	0.849	0.723	0.997	0.046	*

Notes: *P < 0.05; **P < 0.01.

Abbreviations: LUAD, lung adenocarcinoma; HR, hazard ratio; 95% CI_l, 95% confidence interval_lower; 95% CI_u, 95% confidence interval_upper; CCR1-CCR10, C-C chemokine receptor type 1- C-C chemokine receptor type 10.

Discussion

As the largest subdivision of the chemokine superfamily, there are ten CC chemokine receptor subtypes, they are all receptors with G protein-coupled, seven-transmembrane region and mainly induce signal transduction via Gi proteins.21 In humans, CCR1, CCR2, CCR3, CCR4, CCR5, CCR8, CCR9, and CCR10 are encoded by a cluster of genes on chromosome 3p21. And CCR6 is encoded by the gene located on the long arm of Chromosome 6 (6q27), and CCR7 is encoded by the gene on chromosome 17q21.2. CCRs are highly differentially expressed on most leukocyte subsets, and mediate different types of immune responses.47 They are closely related to many autoimmune and inflammation-related conditions, such as multiple sclerosis, osteoarthritis, and inflammatory bowel disease.20,48–50 Numerous studies showed that CC chemokine receptors were critical mediators of chronic inflammatory responses, and they were involved in leukocyte recruitment, angiogenesis, tumor growth, proliferation, and metastasis.51–53 CC chemokine receptors were also considered as potential pharmacological targets.21 Some CC chemokine receptor antagonists/inhibitors displayed potent anti-tumor activity in the preclinical models and clinical trials.51,54 For example, CCR1 antagonist BL5923 showed antimetastatic metastatic ability in a mouse model of colon cancer liver metastasis.55 And Mogamulizumab, as a first-in-class CCR4 inhibitor, was considered a promising pharmacotherapy for T-cell lymphomas.56,57 However, the prognostic values and biological functions of CC chemokine receptors in LUAD have not been well characterized.

In this study, we first investigated the expression of CC chemokine receptors in the lung adenocarcinoma and found there were six genes differentially expressed in LUAD compared with the normal tissues (upregulation of CCR3, CCR6, CCR7, and CCR8; downregulation of CCR1 and CCR10). Besides, the relationship between CC chemokine receptors and the pathological stage of LUAD patients was assessed, we found the expression of CCR2, CCR4, CCR6, and CCR 7 decreased as the adenocarcinomas progressed. Furthermore, we investigated the prognostic values of CC chemokine receptors in LUAD cases. The results showed that high expression of CCR2, CCR3, CCR4, and CCR10, while, the low expression of CCR5 and CCR6, was significantly associated with worse OS. And the high expression of CCR3 and CCR4 also indicated inferior FP in LUAD cases. But there was no significant difference between the CC chemokine receptors expression and PPS/DFS in LUAD patients. In addition, the prognostic value of CC chemokine receptors signature was also assessed in three independent cohorts, the LUAD patients in the high-risk group had unfavorable OS and RFS when compared that in the low-risk group. And for the prognostic value of the DNA methylation of CC chemokine receptors, 1 CpG of CCR2, 2 CpGs of CCR3, 1 CpG of CCR4, 3 CpGs of CCR6, 3 CpGs of CCR7, 1 CpG of CCR8, and 3 CpGs of CCR9 were found to be significantly associated with prognosis in LUAD patients. However, the DNA methylation signature analysis showed no statistically significant association between the high- and low-risk groups.

Then, the molecular characteristics of CC chemokine receptors were also explored in LUAD. Since the occurrence and development of LUAD are multi-step and multi-factors, and genetic alteration was also involved in this process, we explored the genetic alterations, and alterations of CCR1, CCR2, CCR3, CCR4, CCR5, CCR6, CCR7, CCR8, CCR9, and CCR10 were observed in 3%, 5%, 4%, 4%, 4%, 5%, 2.9%, 5%, 3%, and 0.6% of the LUAD samples. And we also found a moderate to strong correlation among the expression of CCR4, CCR5, CCR6, CCR7, and CCR8, suggesting that these CC chemokine receptors might play a synergistic role in the tumorigenesis and progression of LUAD.

Then, the function of CC chemokine receptors was explored with GO and KEGG pathway enrichment analyses. As expected, the functions of CCR1 to CCR10 genes are primarily related to the chemokine-mediated signaling pathway, immune response, cytokine-cytokine receptor interaction. We also sought to characterize the transcription factor and kinase targets of CC chemokine receptors, and found that NR3C2, KLF2, RELA, and NFKB1 may be key transcription factors in the regulation of CC chemokine receptors. And the top two kinase and miRNA targets of CC chemokine receptors were also identified. Previous researches have proved that these signaling pathways above played key roles in tumor proliferation, migration, invasion, and metastasis.52,58 And they could also affect treatment effect and clinical outcome by mediating the migration and localization of immune cells, the immune responses, and the balance between immunity and tolerance.59–61 These data suggested that CC chemokine receptors could be used as potential immunotherapy targets.

Moreover, the correlation between CC chemokine receptors and immune cell infiltration of LUAD was also assessed. Eight CC chemokine receptors, including CCR1, CCR2, CCR4, CCR5, CCR6, CCR7, CCR8, and CCR9, were significantly related to all six immune cell types, including B cells, CD8+ T cells, CD4+ T cells, macrophages, neutrophils, and dendritic cells. And there was a positive significant correlation between CCR10 expression and the infiltration of B cells and CD4+ T cells, there was a positive significant correlation between the CCR3 expression and the infiltration of macrophages, neutrophils, and dendritic cells. Furthermore, the tumor infiltration levels among LUAD with different somatic copy number alterations for the CC chemokine receptors were also compared. The Cox proportional hazard model further demonstrated that CCR1, CCR2, CCR10, B_cell, and CD4_Tcell were significantly related to the clinical outcome of LUAD patients. These results indicated that CC chemokine receptors were involved in LUAD progression by affecting immune status.

Recent researches provided possible mechanisms that explained why CC chemokine receptors could act as valuable tumor-markers and immunotherapeutic targets. CC chemokine receptors are involved in tumorigenesis and cancer development.

The ectopic expression of CC chemokine receptors was found in various solid and hematological tumors, including lung cancer, breast cancer, gastric cancer, T- and B-cell lymphomas.62–66 And their altered expression was correlated with clinical outcomes. For example, CCR5 and CCR9 expression were found to be related to lymph node metastasis, clinical stage in head and neck squamous cell carcinomas, and lung adenocarcinoma, respectively.67,68 And CCR7 was related to the development of lymph node metastasis and might be a potential prediction of prognosis in lung cancer.69,70 Furthermore, CC chemokine receptors, activated by binding to cytokines of the CC chemokine family, are closely associated with immune and inflammation response.51,71,72 And the chemokine system plays a key role in the initiation of naive T cells, cell fate determination such as effector and memory cell differentiation, and regulatory T cell functions, and could position cells for host defense and immunity.71 Recent studies in vivo and in vitro also demonstrated important roles for CC chemokine receptors in cancer processes. They exert important roles in apoptosis, proliferation, invasion, migration, and metastasis, and participate in the remodeling of the tumor microenvironment by affecting leukocyte recruitment and activation, angiogenesis, and lymphangiogenesis. For instance, among these for CC chemokine receptors, CCR1 inhibition could reduce tumor growth and metastasis by targeting myeloid cells.55 Activation of the CCL2/CCR2 axis could exert pro-tumoral activities for the increased recruitment of monocytes with pro-tumorigenic and pro-metastatic activities.51 CCR6, combined with its ligand CCL20, could recruit immune cells to the tumor niche, including tumor-associated macrophages (TAMs), T helper 17 (Th17), and regulatory T cells (Tregs).73–76 And CCR10, activated by CCL27 and CCL28, showed an effect on tumor vascularization by recruiting anti-cancer tumor-infiltrating lymphocytes (TILs) and regulatory T cells (Tregs).72

There are some limitations in our study. The biases caused by the confounders might exist since the data for analysis were from multiple online bioinformatics resources. And our results also needed to be validated, researches in vitro and in vivo are required to further explore the exact mechanisms of CC chemokine receptors in the progression of lung adenocarcinoma.

In conclusion, this work provided evidence of the values of CC chemokine receptors as clinical biomarkers and therapeutic targets in LUAD. We hope the results could afford some new inspirations for immunotherapeutic drug development, provide some assistance to the clinicians in the selection of optimal drugs for LUAD patients, and identify the tumor markers that have more accurate prognostic prediction ability in LUAD.