Your search keyword '"Alhallaj, Alshaimaa"' showing total 10 results

1. Distinct anti-proliferative effects of herbal melanin on human acute monocytic leukemia THP-1 cells and embryonic kidney HEK293 cells

Author

El-Obeid, Adila, Alajmi, Hala, Harbi, Mashael, Yahya, Wesam Bin, Al-Eidi, Hamad, Alaujan, Monira, Haseeb, Adil, Trivilegio, Thadeo, Alhallaj, Alshaimaa, Alghamdi, Saleh, Ajlouni, Abdul-Wali, and Matou-Nasri, Sabine

Published

2020

2. Discovery of a novel potentially transforming somatic mutation in CSF2RB gene in breast cancer.

Author

Rashid, Mamoon, Ali, Rizwan, Almuzzaini, Bader, Song, Hao, AlHallaj, Alshaimaa, Abdulkarim, Al Abdulrahman, Mohamed Baz, Omar, Al Zahrani, Hajar, Mustafa Sabeena, Muhammed, Alharbi, Wardah, Hussein, Mohamed, and Boudjelal, Mohamed

Subjects

SOMATIC mutation, BRCA genes, MONONUCLEAR leukocytes, BREAST cancer, GENETIC mutation

Abstract

The colony stimulating factor 2 receptor subunit beta (CSF2RB) is the common signaling subunit of the cytokine receptors for IL‐3, IL‐5, and GM‐CSF. Several studies have shown that spontaneous and random mutants of CSF2RB can lead to ligand independence in vitro. To date, no report(s) have been shown for the presence of potentially transforming and oncogenic CSF2RB mutation(s) clinically in cancer patients until the first reported case of a leukemia patient in 2016 harboring a germline‐activating mutation (R461C). We combined exome sequencing, pathway analyses, and functional assays to identify novel somatic mutations in KAIMRC1 cells and breast tumor specimen. The patient's peripheral blood mononuclear cell (PBMC) exome served as a germline control in the identification of somatic mutations. Here, we report the discovery of a novel potentially transforming and oncogenic somatic mutation (S230I) in the CSF2RB gene of a breast cancer patient and the cell line, KAIMRC1 established from her breast tumor tissue. KAIMRC1 cells are immortalized and shown to survive and proliferate in ligand starvation condition. Immunoblot analysis showed that mutant CSF2RB signals through JAK2/STAT and PI3K/mTOR pathways in ligand starvation conditions. Screening a small molecule kinase inhibitor library revealed potent JAK2 inhibitors against KAIMRC1 cells. We, for the first time, identified a somatic, potentially transforming, and oncogenic CSF2RB mutation (S230I) in breast cancer patients that seem to be an actionable mutation leading to the development of new therapeutics for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2021

3. Novel Anti-Tubulin Compounds from Trigonella foenum-graecum Seeds; Insights into In-vitro and Molecular Docking Studies.

Author

Alghamdi, Sahar Saleh, Suliman, Rasha Saad, Alsaeed, Amjad Sulaiman, Almutairi, Khlood Khaled, Aljammaz, Norah Abdulaziz, Altolayyan, Abdulelah, Ali, Rizwan, and Alhallaj, Alshaimaa

Published

2021

4. A Drug Repositioning Approach Identifies a Combination of Compounds as a Potential Regimen for Chronic Lymphocytic Leukemia Treatment.

Author

Nehdi, Atef, Samman, Nosaibah, Mashhour, Abdullah, Alhallaj, Alshaimaa, Trivilegio, Thadeo, Gul, Sheraz, Reinshagen, Jeanette, Alaskar, Ahmed, Gmati, Gamal, Abuelgasim, Khadega A., Mansour, Fatmah, and Boudjelal, Mohamed

Subjects

FLUDARABINE, CHRONIC lymphocytic leukemia, MONONUCLEAR leukocytes, PROTEIN-tyrosine kinase inhibitors, DRUG utilization, ANTINEOPLASTIC agents

Abstract

Drug repositioning is a promising and powerful innovative strategy in the field of drug discovery. In this study, we screened a compound-library containing 800 Food and Drug Administration approved drugs for their anti-leukemic effect. All screening activities made use of human peripheral blood mononuclear cells (PBMCs), isolated from healthy or leukemic donors. Compounds with confirmed cytotoxicity were selected and classified in three groups: i) anti-neoplastic compounds which are drugs used in leukemia treatment, ii) compounds known to have an anti-cancer effect and iii) compounds demonstrating an anti-leukemic potential for the first time. The latter group was the most interesting from a drug repositioning perspective and yielded a single compound, namely Isoprenaline which is a non-selective β-adrenergic agonist. Analysis of the cytotoxic effect of this drug indicated that it induces sustainable intracellular ATP depletion leading, over time, to necrotic cell death. We exploited the Isoprenaline-induced intracellular ATP depletion to sensitize primary leukemic cells to fludarabine (purine analogue) and Ibrutinib (Bruton's tyrosine kinase inhibitor) treatment. In-vitro treatment of primary leukemic cells with a combination of Isoprenaline/fludarabine or Isoprenaline/Ibrutinib showed a very high synergistic effect. These combinations could constitute a new efficient regimen for CLL treatment following successful evaluation in animal models and clinical trials. [ABSTRACT FROM AUTHOR]

Published

2021

5. Delta Like-1 Gene Mutation: A Novel Cause of Congenital Vertebral Malformation.

Author

Barhoumi, Tlili, Nashabat, Marwan, Alghanem, Bandar, Alhallaj, AlShaimaa, Boudjelal, Mohamed, Umair, Muhammad, Alarifi, Saud, Alfares, Ahmed, Mohrij, Saad A. Al, and Alfadhel, Majid

Subjects

NOTCH signaling pathway, HUMAN abnormalities, FOCAL adhesion kinase, NOTCH proteins, EMBRYOLOGY, OSTEOCLASTS

Abstract

Skeletal development throughout the embryonic and postnatal phases is a dynamic process, based on bone remodeling and the balance between the activities of osteoclasts and osteoblasts modulating skeletal homeostasis. The Notch signaling pathway is a regulator of several developmental processes, and plays a crucial role in the development of the human skeleton by regulating the proliferation and differentiation of skeletal cells. The Delta Like-1 (DLL1) gene plays an important role in Notch signaling. We propose that an identified alteration in DLL1 protein may affect the downstream signaling. In this article, we present for the first time two siblings with a mutation in the DLL1 gene, presenting with congenital vertebral malformation. Using variable in silico prediction tools, it was predicted that the variant was responsible for the development of disease. Quantitative reverse-transcription polymerase chain reaction (PCR) for the Notch signaling pathway, using samples obtained from patients, showed a significant alteration in the expression of various related genes. Specifically, the expression of neurogenic locus notch homolog protein 1, SNW domain-containing protein 1, disintegrin, and metalloproteinase domain-containing proteins 10 and 17, was upregulated. In contrast, the expression of HEY1, HEY2, adenosine deaminase (ADA), and mastermind-like-1 (MAML-1) was downregulated. Furthermore, in a phosphokinase array, four kinases were significantly changed in patients, namely, p27, JANK1/2/3, mitogen- and stress-activated protein kinases 1 and 2, and focal adhesion kinase. Our results suggest an implication of a DLL1 defect related to the Notch signaling pathway, at least in part, in the morphologic abnormality observed in these patients. A limitation of our study was the low number of patients and samples. Further studies in this area are warranted to decipher the link between a DLL1 defect and skeletal abnormality. [ABSTRACT FROM AUTHOR]

Published

2019

6. Isolation and Establishment of a Highly Proliferative, Cancer Stem Cell-Like, and Naturally Immortalized Triple-Negative Breast Cancer Cell Line, KAIMRC2.

Author

Ali, Rizwan, Al Zahrani, Hajar, Barhoumi, Tlili, Alhallaj, Alshaimaa, Mashhour, Abdullah, Alshammari, Musaad A., Alshawakir, Yasser A., Baz, Omar, Alanazi, Abdullah H., Khan, Abdul Latif, Al Nikhli, Hassan, Al Balwi, Mohammed A., Al Riyees, Lolwah, and Boudjelal, Mohamed

Subjects

TRIPLE-negative breast cancer, CELL lines, P53 antioncogene, BREAST cancer, CANCER stem cells, TUMOR suppressor genes

Abstract

In vitro studies of a disease are key to any in vivo investigation in understanding the disease and developing new therapy regimens. Immortalized cancer cell lines are the best and easiest model for studying cancer in vitro. Here, we report the establishment of a naturally immortalized highly tumorigenic and triple-negative breast cancer cell line, KAIMRC2. This cell line is derived from a Saudi Arabian female breast cancer patient with invasive ductal carcinoma. Immunocytochemistry showed a significant ratio of the KAIMRC2 cells' expressing key breast epithelial and cancer stem cells (CSCs) markers, including CD47, CD133, CD49f, CD44, and ALDH-1A1. Gene and protein expression analysis showed overexpression of ABC transporter and AKT-PI3Kinase as well as JAK/STAT signaling pathways. In contrast, the absence of the tumor suppressor genes p53 and p73 may explain their high proliferative index. The mice model also confirmed the tumorigenic potential of the KAIMRC2 cell line, and drug tolerance studies revealed few very potent candidates. Our results confirmed an aggressive phenotype with metastatic potential and cancer stem cell-like characteristics of the KAIMR2 cell line. Furthermore, we have also presented potent small molecule inhibitors, especially Ryuvidine, that can be further developed, alone or in synergy with other potent inhibitors, to target multiple cancer-related pathways. [ABSTRACT FROM AUTHOR]

Published

2021

7. Iron Oxide Mesoporous Magnetic Nanostructures with High Surface Area for Enhanced and Selective Drug Delivery to Metastatic Cancer Cells.

Author

El-Boubbou, Kheireddine, Ali, Rizwan, Al-Humaid, Sulaiman, Alhallaj, Alshaimaa, Lemine, O. M., Boudjelal, Mohamed, AlKushi, Abdulmohsen, Della Porta, Giovanna, and Jimenez-Lopez, Concepcion

Subjects

FERRIC oxide, METASTASIS, CANCER cells, SURFACE area, FERRIC nitrate

Abstract

This work reports the fabrication of iron oxide mesoporous magnetic nanostructures (IO-MMNs) via the nano-replication method using acid-prepared mesoporous spheres (APMS) as the rigid silica host and iron (III) nitrate as the iron precursor. The obtained nanosized mesostructures were fully characterized by SEM, TEM, DLS, FTIR, XRD, VSM, and nitrogen physisorption. IO-MMNs exhibited relatively high surface areas and large pore volumes (SBET = 70–120 m2/g and Vpore = 0.25–0.45 cm3/g), small sizes (~300 nm), good crystallinity and magnetization, and excellent biocompatibility. With their intrinsic porosities, high drug loading efficiencies (up to 70%) were achieved and the drug release rates were found to be pH-dependent. Cytotoxicity, confocal microscopy, and flow cytometry experiments against different types of cancerous cells indicated that Dox-loaded IO-MMNs reduced the viability of metastatic MCF-7 and KAIMRC-1 breast as well as HT-29 colon cancer cells, with the least uptake and toxicity towards normal primary cells (up to 4-fold enhancement). These results strongly suggest the potential use of IO-MMNs as promising agents for enhanced and effective drug delivery in cancer theranostics. [ABSTRACT FROM AUTHOR]

Published

2021

8. Proteomics Profiling of KAIMRC1 in Comparison to MDA-MB231 and MCF-7.

Author

Alghanem, Bandar, Ali, Rizwan, Nehdi, Atef, Al Zahrani, Hajar, Altolayyan, Abdulelah, Shaibah, Hayat, Baz, Omar, Alhallaj, Alshaimaa, Moresco, James J., Diedrich, Jolene K., Yates III, John R., and Boudjelal, Mohamed

Subjects

AMINO acid metabolism, DNA replication, PROTEOMICS, PHOSPHOPROTEINS, CELL lines, POLY(ADP-ribose) polymerase, POLY ADP ribose

Abstract

Proteomics characterization of KAIMRC1 cell line, a naturally immortalized breast cancer cells, is described in comparison to MCF-7 and MDA-MB-231 breast cancer cells. Quantitative proteomics analysis using the tandem mass tag (TMT)-labeled technique in conjunction with the phosphopeptide enrichment method was used to perform comparative profiling of proteins and phosphoproteins in the three cell lines. In total, 673 proteins and 33 Phosphoproteins were differentially expressed among these cell lines. These proteins are involved in several key cellular pathways that include DNA replication and repair, splicing machinery, amino acid metabolism, cellular energy, and estrogen signaling pathway. Many of the differentially expressed proteins are associated with different types of tumors including breast cancer. For validation, 4 highly significant expressed proteins including S-methyl-5′-thioadenosine phosphorylase (MTAP), BTB/POZ domain-containing protein (KCTD12), Poly (ADP-ribose) polymerase 1 (PARP 1), and Prelamin-A/C were subjected to western blotting, and the results were consistent with proteomics analysis. Unlike MCF-7 and MDA-MB-231, KAIMRC1 showed different phospho- and non-phosphoproteomic phenotypes which make it a potential model to study breast cancer. [ABSTRACT FROM AUTHOR]

Published

2020

9. Nuclear Receptors Are Differentially Expressed and Activated in KAIMRC1 Compared to MCF7 and MDA-MB231 Breast Cancer Cells.

Author

Nehdi, Atef, Ali, Rizwan, Alhallaj, Alshaimaa, Alzahrani, Hajar, Samman, Nosaibah, Mashhour, Abdullah, Baz, Omar, Barhoumi, Tlili, Alghanem, Bandar, Khan, Abdullatif, Alriyees, Lolwah, Boudjelal, Mohamed, and McPhee, Derek J.

Subjects

DNA-binding proteins, PEROXISOME proliferator-activated receptors, RETINOIC acid receptors, VITAMIN D receptors, RETINOID X receptors, ESTROGEN receptors

Abstract

We recently established a KAIMRC1 cell line that has unique features compared to the known breast cancer cell lines, MCF7 and MDA-MB231. To characterize it further, we investigated the expression profile of nuclear receptors and their respective co-factors in these cell lines. We confirm that in contrast to the triple negative cell line MDA-MB231, the MCF7 and KAIMRC1 are estrogen receptor alpha (ERa) and progesterone receptor alpha (PRa) positive, with significant lower expression of these receptors in KAIMRC1. KAIMRC1 cell is a vitamin D receptor (VDR) negative and V-ErbA-Related Protein 2 (EAR2) positive in contrast to MCF7 and MDA-MB231. Remarkably, the histone deacetylases (HDACs) are highly expressed in KAIRMC1 with HDAC6 and HDAC 7 are exclusively expressed in KAIMRC1 while thyroid hormone receptor-associated protein 80 (TRAP80), telomeric DNA binding protein 1 (TBP1) and TGF-beta receptor interacting protein (TRIP1) are absent in KAIMRC1 but present in MCF7 and MDA-MB231. In a luciferase reporter assay, the ERa coexpression is needed for estrogen receptor element (ERE)-luciferase activation by estradiol in KAIMRC1 but not in MCF7. The co-expression of exogenous Liver X receptor alpha (LXRa)/retinoid X receptor alpha (RXRa) are necessary for LXR responsive element (LXRE) activation by the GW3696 in the three cell lines. However, the activity of peroxisome proliferator-activated receptor response element (PPARE)-tk-luciferase reporter increased when peroxisome proliferator-activated receptors alpha (PPARa)/RXRa were coexpressed but the addition of PPARa agonist (GW7647) did not stimulate further the reporter. The signal of the PPARE reporter increased in a dose-dependent manner with rosiglitazone (PPARg agonist) in KAIMRC1, MCF7, and MDA-MB231 when the proliferator-activated receptors gamma (PPARg)/RXRa receptors were cotransfected. Retinoic acid-induced activation of retinoic acid receptor response element (RARE)-tk-luciferase is dependent on exogenous expression of retinoic acid receptor alpha (RARa)/RXRa heterodimer in MDA-MB 231 but not in MCF7 and KAIMRC1 cell lines. In the three cell lines, Bexarotene-induced retinoid X receptor response element (RXRE)-luciferase reporter activation was induced only if the RXRa/LXRa heterodimer were co-expressed. The vitamin D receptor response element (VDRE)-luciferase reporter activity showed another distinct feature of KAIMRC1, where only co-expression of exogenous vitamin D receptor (VDR)/RXRa heterodimer was sufficient to reach the maximum rate of activation of VDRE reporter. In the proliferation assay, nuclear receptors ligands showed a distinct effect on KAIMRC1 compared to MCF7 and MDA-MB231. Growth inhibition effects of used ligands suggest that KAIMRC1 correlate more closely to MDA-MB231 than MCF7. Vitamin D3, rosiglitazone, novel RXR compound (RXRc) and PPARa compound (GW6471) have the most profound effects. In conclusion, we showed that nuclear receptors are differentially expressed, activated and also their ligand produced distinct effects in KAIMRC1 compared to MCF7 and MDA-MB231. This finding gives us confidence that KAIMRC1 has a unique biological phenotype. [ABSTRACT FROM AUTHOR]

Published

2019

10. New Born Calf Serum Can Induce Spheroid Formation in Breast Cancer KAIMRC1 Cell Line.

Author

Ali R, Huwaizi S, Alhallaj A, Al Subait A, Barhoumi T, Al Zahrani H, Al Anazi A, Latif Khan A, and Boudjelal M

Abstract

Three-dimensional (3D) cell culture systems have become very popular in the field of drug screening and discovery. There is an immense demand for highly efficient and easy methods to produce 3D spheroids in any cell format. We have developed a novel and easy method to produce spheroids from the newly isolated KAIMRC1 cell line in vitro . It can be used as a 3D model to study proliferation, differentiation, cell death, and drug response of cancer cells. Our procedure requires growth media supplemented with 10% new born calf serum (NBCS) and regular cell culture plates to generate KAIMRC1 spheroids without the need for any specialized 3D cell culture system. This procedure generates multiple spheroids within a 12-24-h culture. KAIMRC1 spheroids are compact, homogeneous in size and morphology with a mean size of 55.8 µm (±3.5). High content imaging (HCI) of KAIMRC1 spheroids treated with a panel of 240 compounds resulted in the identification of several highly specific compounds towards spheroids. Immunophenotyping of KAIMRC1 spheroids revealed phosphorylation of FAK, cJUN, and E-cadherin, which suggests the involvement of JNK/JUN pathway in the KAIMRC1 spheroids formation. Gene expression analysis showed upregulation of cell junction genes, GJB3, DSC1, CLDN5, CLDN8, and PLAU. Furthermore, co-culture of KAIMRC1 cells with primary cancer-associated-fibroblasts (CAFs) showcased the potential of these cells in drug discovery application., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Ali, Huwaizi, Alhallaj, Al Subait, Barhoumi, Al Zahrani, Al Anazi, Latif Khan and Boudjelal.)

Published

2021