Exosome-derived ANXA9 functions as an oncogene in breast cancer.

Breast cancer (BCA) is one of the most prevalent cancers among women. Emerging evidence has revealed that Annexin A-9 (ANXA9) plays a crucial function in the development of some cancers. Notably, ANXA9 has been reported to be a new prognostic biomarker for gastric and colorectal cancers. However, its expression and biological function in BCA have not yet been investigated. Using online bioinformatics tools such as TIMER, GEPIA, HPA, and UALCAN, we predicted ANXA9 expression and its correlation with the clinicopathological characteristics of BCA patients. RT-qPCR and western blot were utilized to measure ANXA9 mRNA and ANXA9 protein expression in BCA patient tissues and cells. BCA-derived exosomes were identified by transmission electron microscopy. Functional assays were employed to evaluate the biological role of ANXA9 in BCA cell proliferation, migration, invasion, and apoptosis. A tumor xenograft in vivo model was utilized to assess the role of ANXA9 in tumor growth in mice. Bioinformatics and functional screening analysis revealed that ANXA9 was highly expressed in BCA patient tissues, with median ANXA9 expression 1.5- to 2-fold higher than in normal tissues (p < 0.05). RT-qPCR confirmed that ANXA9 expression in BCA tissues was around 1.5-fold higher than the adjacent normal tissues (p < 0.001). ANXA9 expression in different subtypes of BCA also showed a difference, and ANXA9 was found to be mostly significantly upregulated in luminal BCA relative to normal tissues or other histological subtypes (p < 0.001). Moreover, ANXA9 expression was elevated in different races, ages, clinical stages, node metastasis status, and menopause status groups relative to the normal group (p < 0.001). Furthermore, ANXA9 was found to be secreted by BCA tissue-derived exosomes and its expression was upregulated 1- to 7-fold in BCA cells treated with exosomes (p < 0.001), while its expression in MCF10A cells was not significantly altered by treatment with exosomes (p > 0.05). ANXA9 silencing induced a significant decrease of around 30% in the colony number of BCA cells (p < 0.01). The number of migrated and invaded BCA cells also decreased by around 65 and 68%, respectively, after silencing ANXA9 (p < 0.01). Tumor size was significantly reduced (nearly half) in the LV-sh-ANXA9 group relative to the LV-NC group in the xenograft model (p < 0.01), suggesting that ANXA9 silencing repressed tumor progression in BCA progression in vitro and in vivo. In conclusion, exosome-derived ANXA9 functions as an oncogene that facilitates the proliferation, migration, and invasiveness of BCA cells and enhances tumor growth in BCA development, which may provide a new prognostic and therapeutic biomarker for BCA patients.

[Effects of Emodin Derivative on Cell Cycle, Apoptosis and NF-κB Pathway in Burkitt Lymphoma Cells].

OBJECTIVE: To investigate the effect and mechanism of a novel emodin derivative YX-18 on Burkitt lymphoma (BL) cells. METHODS: MTT assay was used to detect the effect of YX-18 on the proliferation of BL cell lines CA46 and Raji. Annexin V-PE/7-AAD double staining assay was used for detecting the effect of YX-18 on the apoptosis of CA46 and Raji cells. PI/RNase staining was used to test the effect of YX-18 on CA46 and Raji cell cycle. JC-1 method was used to measure the changes of mitochondrial membrane potential after YX-18 treatment, and DAPI staining was used to detect the morphology of apoptotic cells. Western blot was used to analyze the distribution changes of NF-κB pathway protein (P65, P-P65, IκB, P-IκB) in the cytoplasm and cell nucleus, and also the expression changes of cyclin-related protein P21, CDK2, P-CDK2, Cycling D1, Cycling E1, and the apoptosis-related protein Caspase-3, Caspase-8, Caspase-9 and the proliferation-related protein C-MYC, BCL-2 by YX-18. Real-time fluorescence-quantitative PCR was used to evaluate the effects of YX-18 on mRNA levels of C-MYC and Ki-67 genes in CA46 and Raji cells, and EBNA-1 and EBER genes of EBV in Raji (EBV+) cells. RESULTS: Novel Emodin derivative YX-18 could effectively inhibit the proliferation of BL cell lines CA46 and Raji, showing a time-dependent effect (24, 48 and 72 h: rCA46=0.89, 0.75, 0.75, rRaji=0.87, 0.73, 0.64). IC50 of CA46 cells and Raji cells treated with YX-18 for 24 h was 1.77±0.04 µmol/L and 1.97±0.22µmol/L, respectively. CA46 cells and Raji cells were treated with YX-18 at concentration of 2.0 and 4.0 µmol/L for 24 h. Compared with the control group, both strains of cells showed a very significant apoptosis at the concentration of 2.0 and 4.0 µmol/L (P<0.01), showing a concentration-dependent effect (rCA46=0.99, rRaji=0.92). Moreover, the cleavaged Caspase-3, 8 and 9 proteins were activated by YX-18 into verious degrees in both two cell lines. Both the two cell lines displayed by YX-18 cell cycle arrest at G0/G1 phase (P<0.01) after exposed to YX-18 for 24 hours at the concentration of 1.0, 2.0 µmol/L in CA46 cells and at 0.5 and 1 µmol/L in Raji cells, respectively. YX-18 decreased expression level of cyclin D1, cyclin E1, CDK2, p-cdk2 proteins and increased p21Waf1/Cip1 level in CA46 and Raji cells. YX-18 significantly declined mitochondrial membrane potential in both cells at the concentration of 2.0 and 4.0 µmol/l (P<0.01) with concentration-dependent manner (rCA46=-0.96, rRaji=-0.99). Western blot tests indicated that YX-18 down-regulated nucleus P65 and intracellular cytoplasm P65, P-IκB, P-P65 protein, and upregulated intracellular IκB level with dose-dependent manner. Meanwhile, the expression level of the cell proliferation-related molecules C-MYC and BCL-2 was decreased significantly. YX-18 suppressed mRNA levels of C-MYC and Ki-67 in both cell lines, and EBNA-1 in EBV-positive Raji cells in a concentration-dependent way. CONCLUSION: The novel emodin derivative YX-18 can significantly inhibit the proliferation of Burkitt lymphoma cells, and induce the cell apoptosis and cycle arrest. The inhibitory effect of YX-18 on the proliferation of Burkitt lymphoma cells may be related with the effect of Caspase apoptosis pathway, the proliferation and apoptosis-related molecules, such as C-MYC and Ki-67, and also to the inhibition of NF-κB pathway.