APOs as promising prognostic biomarkers: correlation with tumor-infiltrating leukocytes in endometrial cancer.

Frontiers in immunology 2026
Open on PubMed

Apolipoproteins (APOs) are essentially structural and functional components of lipoproteins, which are composed of 22 members and their effects on certain types of cancer have been studied. However, their roles in endometrial cancer (EC), which is one of the most common malignant tumors in gynecology were unclear and rarely investigated. We investigated the expression levels of APOs genes in EC. Furthermore, we explored the roles of APOs in prognostic value, and immune infiltrates in EC patients by using different bioinformatics databases. In-vitro experiments were also conducted to evaluate the effect of APOs genes expression on migrant abilities of EC cells. Nine APO genes (APOC1, APOC2, APOC4, APOD, APOE, APOL3, APOL4, APOLD1, and APOO) were found differently expressed between EC and control tissues by the GEPIA2. However, APOC4 was not included in the subsequent analysis due to its low expression in EC tissues. Moreover, mRNA expression levels of APOs were found correlated with the clinicopathological characteristics of EC, including stage, grade, molecular subgroups, p53 mutant conditions, PTEN mutant conditions, and expression levels of ESR1 and ESR2. Meanwhile higher expression levels of APOs were significantly correlated with better (APOD, APOL3) or poorer (APOC1, APOE, APOLD1) OS. ssGSEA showed 7 TILs in EC which differed significantly from those in adjacent noncancerous tissues were correlated with prognosis of EC patients. The expression levels of both APOD and APOE were positively correlated with all 7 TILs. Finally, western blotting showed that 17β-estradiol (E2) increased APOE protein expression level and reduced APOD protein expression level. Furthermore, APOE was identified to promote the cell migration by scratch assay. The expression of APOs may be a promising prognostic biomarker and is associated with immune invasion as a potential target for endometrial cancer.

9 Figures Extracted
Figure 1
Figure 1 PMC
The expression of APOs genes in EC. (A) The volcano plots of APOs in EC. Red nodes represent upregulated genes, blue nodes represent downregulated g...
Figure 2
Figure 2 PMC
The relationship of the expression level of APOs with clinicopathological conditions in EC. The mRNA expression levels of APOs were analyzed in both n...
Figure 3
Figure 3 PMC
The relationship of the expression level of APOs with molecular characteristics in EC. The mRNA expression levels of APOs were analyzed according to m...
Figure 4
Figure 4 PMC
Kaplan–Meier analysis of association between EC prognosis and the expression of APOC1 (A) , APOC2 (B) , APOD (C) , APOE (D) , APOL3 (E) , APOL4 ...
Figure 5
Figure 5 PMC
Differences of TILs between EC and those adjacent noncancerous tissues from TCGA database by ssGSEA. Infiltration levels of 24 kinds of TILs were anal...
Figure 6
Figure 6 PMC
Kaplan–Meier survival curves comparing the high and low level of TILs in EC by ssGSEA. The level of 7 TILs, including CD4 naive T cells (A) , CD8 nai...
Figure 7
Figure 7 PMC
The immune cells in EC patients from peripheral blood mononuclear cell (PBMC). The levels of CD3+ T cells (A) , B cell (B) , NK cell (C) , active T...
Figure 8
Figure 8 PMC
Correlation of APOs expression with immune infiltration in EC by ssGESA. APOD or APOE expression were positively correlated those tumors infiltrating ...
Figure 9
Figure 9 PMC
APOE and APOD regulated by estrogen modulated the migration of endometrial cancer cell. (A) Western blotting analysis of APOD and APOE in ISHKAWA ce...