Farhadul Islam

Translational potential of cancer stem cells: A review of the detection of cancer stem cells and their roles in cancer recurrence and cancer treatment.

Cancer stem cells (CSCs) are a subpopulation of cancer cells with many clinical implications in most cancer types. One important clinical implication of CSCs is their role in cancer metastases, as reflected by their ability to initiate and drive micro and macro-metastases. The other important contributing factor for CSCs in cancer management is their function in causing treatment resistance and recurrence in cancer via their activation of different signalling pathways such as Notch, Wnt/β-catenin, TGF-β, Hedgehog, PI3K/Akt/mTOR and JAK/STAT pathways. Thus, many different therapeutic approaches are being tested for prevention and treatment of cancer recurrence. These may include treatment strategies targeting altered genetic signalling pathways by blocking specific cell surface molecules, altering the cancer microenvironments that nurture cancer stem cells, inducing differentiation of CSCs, immunotherapy based on CSCs associated antigens, exploiting metabolites to kill CSCs, and designing small interfering RNA/DNA molecules that especially target CSCs. Because of the huge potential of these approaches to improve cancer management, it is important to identify and isolate cancer stem cells for precise study and application of prior the research on their role in cancer. Commonly used methodologies for detection and isolation of CSCs include functional, image-based, molecular, cytological sorting and filtration approaches, the use of different surface markers and xenotransplantation. Overall, given their significance in cancer biology, refining the isolation and targeting of CSCs will play an important role in future management of cancer.

Cancer stem cell: Fundamental experimental pathological concepts and updates

Cancer stem cells (CSCs) are a subset of cancer cells which play a key role in predicting the biological aggressiveness of cancer due to its ability of self-renewal and multi-lineage differentiation (stemness). The CSC model is a dynamic one with a functional subpopulation of cancer cells rather than a stable cell population responsible for tumour regeneration. Hypotheses regarding the origins of CSCs include (1) malignant transformation of normal stem cells; (2) mature cancer cell de-differentiation with epithelial-mesenchymal transition and (3) induced pluripotent cancer cells. Surprisingly, the cancer stem cell hypothesis originated in the late nineteenth century and the existence of haematopoietic stem cells was demonstrated a century later, demonstrating that the concept was possible. In the last decade, CSCs have been identified and isolated in different cancers. The hallmark traits of CSCs include their heterogeneity, interaction with microenvironments and plasticity. Understanding these basic concepts of CSCs is important for translational applications using CSCs in the management of patients with cancer.

Stage dependent expression and tumor suppressive function of FAM134B (JK1) in colon cancer.

The aims of the present study are to investigate sub‐cellular location, differential expression in different cancer stages and functional role of FAM134B in colon cancer development. FAM134B expression was studied and quantified at protein and mRNA levels in cell lines using immunocytochemistry, Western blot and real‐time PCR. In vitro functional assays and an in vivo xenotransplantation mouse models were used to investigate the molecular role of FAM134B in cancer cell biology in response to FAM134B silencing with shRNA lentiviral particles. FAM134B protein was noted in both cytoplasm and nuclei of cancer cells. In cancer cells derived from stage IV colon cancer, FAM134B expression was remarkably reduced when compared to non‐cancer colon cells and cancer cells derived from stage II colon cancer. FAM134B knockdown significantly (P < 0.05) increased the proliferation of colon cancer cells following lentiviral transfection. Furthermore, FAM134B suppression significantly increased (34–52%; P < 0.05) the clonogenic capacity, wound healing potential of and increases the proportion of cells performing DNA synthesis (P < 0.01). Xenotransplantation model showed that larger and higher‐grade tumors were formed in mice receiving FAM134B knockdown cells. To conclude, expression analysis, in vitro and in vivo indicated that FAM134B acts as a cancer suppressor gene in colon cancer.

MicroRNA-186-5p overexpression modulates colon cancer growth by repressing the expression of the FAM134B tumour inhibitor

Objectives: The role and underlying mechanism of miR‐186‐5p in colorectal cancer remain unknown. The present study aims to examine the various cellular effects of miR‐186‐5p in the carcinogenesis of colorectal cancer. Also, the interacting targets and association of clinicopathological factors with miR‐186‐5p expression in patients with colorectal cancer were analysed. Methods: The miR‐186‐5p expression levels in colorectal cancer tissues (n=126) and colon cancer cell lines (n=3) were analysed by real‐time PCR. Matched non‐neoplastic colorectal tissues and a non‐neoplastic colonic epithelial cell line were used as controls. Various in vitro assays such as cell proliferation, wound healing and colony formation assays were performed to examine the miR‐186‐5p specific cellular effects. Western blots and immunohistochemistry analysis were performed to examine the modulation of FAM134B, PARP9 and KLF7 proteins expression. Results: Significant high expression of miR‐186‐5p was noted in cancer tissues (p< 0.001) and cell lines (p<0.05) when compared to control tissues and cells. The majority of the patients with colorectal cancer (88/126) had shown overexpression of miR‐186‐5p. This miR‐186‐5p overexpression was predominantly noted with in cancer with distant metastasis (p=0.001), lymphovascular permeation (p=0.037), microsatellite instability (MSI) stable (p=0.015), in distal colorectum (p=0.043) and with associated adenomas (p=0.047). Overexpression of miR‐186‐5p resulted in increased cell proliferation, colony formation, wound healing capacities and induced alteration of cell cycle kinetics in colon cancer cells. On the other hand, inhibition of endogenous miR‐186‐5p reduced the cancer growth properties. miR‐186‐5p overexpression reduced FAM134B expression significantly in the cancer cells (p<0.01). Also, FAM134B and miR‐186‐5p expressions are inversely correlated in colorectal cancer tissues and cells. Conclusion: The miR‐186‐5p expression promotes colorectal cancer pathogenesis by regulating tumour suppressor FAM134B. Reduced cancer cells growth followed by inhibition of miR‐186‐5p highlights the potential of miR‐186‐5p inhibitor as a novel strategy for targeting colorectal cancer initiation and progression. HighlightsSignificant high expression of miR‐186‐5p was noted in cancer tissues and cells.miR‐186‐5p overexpression was correlated with adverse clinical factors of cancer.Modulation of miR‐186‐5p, regulate cancer cells growth and cell cycle kinetics.miR‐186‐5p overexpression reduced FAM134B expression in colorectal cancer.Anti‐miR‐186‐5p treatment inhibited colon cancer cells growth remarkably.

Overexpression of microRNA-1288 in oesophageal squamous cell carcinoma

PURPOSE This study aims to examine the expression profiles miR-1288 in oesophageal squamous cell carcinoma (ESCC). The cellular implications and target interactions of ESCC cells following miR-1288 overexpression was also examined. METHODS In total, 120 oesophageal tissues (90 primary ESCCs and 30 non-neoplastic tissues) were recruited for miR-1288 expression analysis using qRT-PCR. An exogenous miR-1288 mimic and its inhibitor were used to explore the in-vitro effects of miR-1288 on ESCC cells by performing cell proliferation, colony formation, cell invasion and migration assays. Localisation and modulatory changes of various miR-1288 regulated proteins such as FOXO1, p53, TAB3, BCL2 and kRAS was examined using immunofluorescence and western blot. RESULTS Overexpression of miR-1288 was more often noted in ESCC tissues when compared to non-neoplastic oesophageal tissues. High expression was often noted in high grade carcinomas and with metastases. Patients with high levels of miR-1288 expression showed a slightly better survival compared to patients with low miR-1288 levels. Furthermore, overexpression of miR-1288 showed increased cell proliferation and colony formation, improved cell migration and enhanced cell invasion properties in ESCC cells. In addition, miR-1288 overexpression in ESCC cells showed repression of cytoplasmic tumour suppressor FOXO1 protein expression. Inversely, inhibition of miR-1288 expression exhibited remarkable upregulation of FOXO1 protein, while expressions of other tested proteins remain unchanged. CONCLUSIONS Up regulation of miR-1288 expression in ESCC tissues and miR-1288 induced oncogenic features of ESCC cells in-vitro indicates the oncogenic roles of miR-1288 in ESCCs. Overexpression of miR-1288 play a key role in the pathogenesis of ESCCs and its modulation may have potential therapeutic value in patients with ESCC.

MiR-498 in esophageal squamous cell carcinoma: clinicopathological impacts and functional interactions

MicroRNA-498 plays a crucial role in progression of many carcinomas. The signaling pathways by which miR-498 modulates carcinogenesis are still unknown. Also, miR-498-associated molecular pathogenesis has never been studied in esophageal squamous cell carcinoma (ESCC). Herein, we aimed to examine the expression and functional roles of miR-498 in ESCC as well as its influences on the clinicopathological features in patients with ESCC. Expression of miR-498 was investigated in 93 ESCC tissues and 5 ESCC cell lines using quantitative real-time polymerase chain reaction. In vitro effects of miR-498 on cellular process were studied followed by overexpression of miR-498. Western blot and immunofluorescence techniques were used to identify the interacting targets for miR-498 in ESCC. miR-498 expression was significantly reduced in ESCC when compared with the nonneoplastic esophageal tissues (P<.05). Patients with low miR-498 expression showed different histological grading of cancer and survival rates when compared with the patients with high miR-498 expression. Overexpression of miR-498 in ESCC cell lines induced remarkable reductions of cell proliferation, barrier penetration, and colony formation when compared with control and wild-type counterparts. Also, miR-498 activated the FOXO1/KLF6 transcriptional axis in ESCC. In addition, miR-498 overexpression increased p21 protein expression and led to reduced cancer cell growth. To conclude, reduced expression of miR-498 in ESCC and in vitro analysis have confirmed the tumor suppressor properties of miR-498 by modulating the FOXO1/KLF6 signaling pathway. The changes in miR-498 expression may have impacts on the clinical pathological parameters of ESCC as well as in the management of the patients with ESCC.

Surface Markers for the Identification of Cancer Stem Cells

Cancer stem cells have genetic and functional characteristics that can turn them resistant to standard cancer therapeutic targets. Identification of these cells is challenging and is mostly done by detecting the expression of their antigens in a group of stem cells. Currently, there are a significant number of surface markers available which can detect the cancer stem cells by directly targeting their specific antigens present in cells. These markers possess differential expression patterns and sub-localizations in cancer stem cells when compared to non-neoplastic stem cells and somatic cells. In addition to molecular markers, multiple analytical methods and techniques including functional assays, cell sorting, filtration approaches, and xenotransplantation methods are used to identify cancer stem cells. This chapter will overview the functional significance of cancer stem cells, its biological correlations, specific markers, and detection methods.

RETREG1 (FAM134B): A new player in human diseases: 15 years after the discovery in cancer

FAM134B (family with sequence similarity 134, member B)/RETREG1 and its functional roles are relatively new in human diseases. This review aimed to summarize various functions of FAM134B since our first discovery of the gene in 2001. The protein encoded by FAM134B is a reticulophagy receptor that regulates turnover of the endoplasmic reticulum (ER) by selective phagocytosis. Absence or non‐functional expression of FAM134B protein impairs ER‐turnover and thereby is involved in the pathogenesis of some human diseases. FAM134B inhibition contributes to impair proteostasis in the ER due to the accumulation of misfolded or aggregated proteins, which in turn leads to compromised neuronal survival and progressive neuronal degenerative diseases. Mutations in FAM134B associated with hereditary sensory and autonomic neuropathy type IIB (HSAN IIB). Selective cleavage of FAM134B by Dengue, Zika, and West Nile virus encoded protease NS2B3 leads to the increased production of infection units, whereas upregulation of FAM134B inhibits viral replication. In cancer, FAM134B acts as a tumor suppressor and inhibit cancer growth both in‐vitro and in‐vivo. Pharmacological upregulation of FAM134B resulted in reduced cancer cell growth and proliferation. In addition, FAM134B mutations are common in patients with colorectal adenocarcinoma, and oesophageal squamous cell carcinoma. These mutations and expression changes of FAM134B were associated with the biological aggressiveness of these cancers. FAM134B also plays a role in allergic rhinitis, vascular dementia, and identification of stem cells. Taken together, information available in the literature suggests that FAM134B plays critical roles in human diseases, by interacting with different biological and chemical mediators, which are primarily regulated by ER turnover.

The roles of microRNA-34b-5p in angiogenesis of thyroid carcinoma.

PurposeThis study aims to determine the expression of miR-34b-5p in thyroid carcinomas and to investigate the role of miR34b-5p in the modulation of proteins involved in angiogenesis of thyroid carcinoma cells.MethodsThe expressions of miR-34b-5p levels in five cell lines and 65 tissue samples from thyroid carcinomas were examined by real-time polymerase chain reaction. An exogenous miR-34b-5p (mimic) transiently overexpress miR-34b-5p in theses thyroid carcinoma cells. The effects of miR-34b-5p overexpression on the proteins involved in angiogenesis and cell cycle regulations (VEGF-A, Bcl-2 and Notch1) were investigated by Western blot, immunofluorescence, enzyme-linked immunosorbent assay followed by cell cycle analysis and apoptosis assays.ResultsmiR-34b-5p is markedly downregulated in all thyroid carcinoma cell lines and tissues samples when compared with non-neoplastic immortalised thyroid cell line and non-neoplastic thyroid tissues, respectively. The expression levels of miR-34b were significantly associated with T-stages of thyroid carcinomas (p = 0.042). Downregulation of VEGF-A, Bcl-2 and Notch1 proteins in thyroid carcinoma cells were noted in cells that transiently transfected with miR-34b-5p mimic. In addition, enzyme-linked immunosorbent assay confirmed the decreased expression of VEGF in thyroid carcinoma cells after transfection with miR-34b-5p mimic. Furthermore, miR-34b-5p mimic transfection induces significant accumulation of cells in G0-G1 of the cell cycle by blocking of their entry into the S transitional phase as well as increasing the total apoptosis.ConclusionsmiR-34b-5p functions as a potent regulator of angiogenesis, apoptosis and cell proliferation via modulation of VEGF-A, Bcl-2 and Notch1 proteins. It could be a target for developing treatment strategies of thyroid carcinoma with aggressive clinical behaviour.

Antiproliferative activity of cytotoxic tuber lectins from Solanum tuberosum against experimentally induced Ehrlich ascites carcinoma in mice

Cytotoxicity of tuber lectins from two potato cultivars was assessed and their anti-tumor potential against experimentally induced Ehrlich ascites carcinoma in Swiss albino mice was evaluated. Twenty (20) kDa chitin-binding lectins from Solanum tuberosum tubers, STL-S and STL-D were purified through ion-exchange and affinity chromatographic methods, hemagglutinating activity and blood group specificity of the lectins were checked whereas the cytotoxicity was determined using brine shrimp (Artemia salina L.) nauplii lethality assay. The lectins showed no specificity to animal and human erythrocytes. LC50 values for STL-S and STL-D were found to be 75 and 90 μg/ml, respectively with a dose-dependent intermediary toxic effect. After inducing ascites by intraperitoneal propagation, the Swiss albino mice were treated by administering the lectins at a dose of 1.38 mg/kg/day for five consecutive days. STL-S and STL-D showed 79.84 and 83.04% of growth inhibition of EAC cells, respectively. Additionally, hemoglobin and RBC levels became considerably increased with a drop off in the WBC levels in the treated mice group indicating moderate anticancer activities exhibited by the potato lectins.