Browsing by Author "El-Sharkawy, Aya Ali"

Filter results by typing the first few letters
Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Differential gene expression of Fresh Tissue and Patient-Derived Explants' Matricellular Proteins Augment Inflammatory Breast Cancer Metastasis: The Possible Role of IL-6 and MCP-1.
    (Dove Medical Press Ltd., 2023-01) Tarek, Alshaimaa; Mohamed, Hossam Taha; El-Sharkawy, Aya Ali; El-Sayed, Shrouk Khalaf; Hirshon, Jon Mark; Woodward, Wendy A; El-Shinawi, Mohamed; Mohamed, Mona Mostafa
    Background Matricellular proteins comprising matrisome and adhesome are responsible for structure integrity and interactions between cells in the tumour microenvironment of breast cancer. Changes in the gene expression of matrisome and adhesome augment metastasis. Since inflammatory breast cancer (IBC) is characterized by high metastatic behavior. Herein we compared the gene expression profile of matrisome and adhesome in non-IBC and IBC in fresh tissue and ex-vivo patients derived explants (PDEs), we also compared the secretory inflammatory mediators of PDEs in non-IBC and IBC to identify secretory cytokines participate in cross-talk between cells via interactions with matrisome and adhisome. Methods Fifty patients (31 non-IBC; 19 IBC) were enrolled in the present study. To test their validation in clinical studies, PDEs were cultured as an ex-vivo model. Gene expression and cytokine array were used to identify candidate genes and cytokines contributing to metastasis in the examined fresh tissues and PDEs. Bioinformatics analysis was applied on identified differentially expressed genes (DEGs) using GeneMANIA and Metascape gene annotation and analysis resource to identify pathways involved in IBC metastasis. Results Normal and cancer fresh tissues and PDEs of IBC were characterized by overexpression of CDH1 and MMP14 and downregulation of CTNNA1 and TIMP1 compared to non-IBC. The secretome of IBC cancer PDEs is characterized by significantly high expression of interleukin 6 (IL-6), and monocyte chemoattractant protein-1 (MCP-1/CCL2) compared to non-IBC. Conclusion Genes expressed by adhisome and matrisome play a significant role in IBC metastasis and should be considered novel target therapy.
  • Thumbnail Image
    Item
    Inflammatory Breast Cancer: The Secretome of HCMV+ Tumor-Associated Macrophages Enhances Proliferation, Invasion, Colony Formation, and Expression of Cancer Stem Cell Markers
    (Frontiers Media S.A., 2022-06) Mohamed, Hossam Taha; El-Sharkawy, Aya Ali; El-Shinawi, Mohamed; Schneider, Robert J; Mohamed, Mona Mostafa
    Inflammatory breast cancer (IBC) is a highly aggressive phenotype of breast cancer that is characterized by a high incidence early metastasis. We previously reported a significant association of human cytomegalovirus (HCMV) DNA in the carcinoma tissues of IBC patients but not in the adjacent normal tissues. HCMV-infected macrophages serve as “mobile vectors” for spreading and disseminating virus to different organs, and IBC cancer tissues are highly infiltrated by tumor-associated macrophages (TAMs) that enhance IBC progression and promote breast cancer stem cell (BCSC)-like properties. Therefore, there is a need to understand the role of HCMV-infected TAMs in IBC progression. The present study aimed to test the effect of the secretome (cytokines and secreted factors) of TAMs derived from HCMV+ monocytes isolated from IBC specimens on the proliferation, invasion, and BCSC abundance when tested on the IBC cell line SUM149. HCMV+ monocytes were isolated from IBC patients during modified radical mastectomy surgery and tested in vitro for polarization into TAMs using the secretome of SUM149 cells. MTT, clonogenic, invasion, real-time PCR arrays, PathScan Intracellular Signaling array, and cytokine arrays were used to characterize the secretome of HCMV+ TAMs for their effect on the progression of SUM149 cells. The results showed that the secretome of HCMV+ TAMs expressed high levels of IL-6, IL-8, and MCP-1 cytokines compared to HCMV- TAMs. In addition, the secretome of HCMV+ TAMs induced the proliferation, invasion, colony formation, and expression of BCSC-related genes in SUM149 cells compared to mock untreated cells. In addition, the secretome of HCMV+ TAMs activated the phosphorylation of intracellular signaling molecules p-STAT3, p-AMPKa, p-PRAS40, and p-SAPK/JNK in SUM149 cells. In conclusion, this study shows that the secretome of HCMV+ TAMs enhances the proliferation, invasion, colony formation, and BCSC properties by activating the phosphorylation of p-STAT3, p-AMPKa, p-PRAS40, and p- SAPK/JNK intracellular signaling molecules in IBC cells. UV