Your search keyword '"Bassey-Archibong BI"' showing total 9 results

1. Abstract P5-07-06: Kaiso regulates miRNA-31 and miRNA-200 expression in triple negative breast cancer (TNBC) cells

Author

Rayner, LGA, primary, Bassey-Archibong, BI, additional, Jaber, S, additional, and Daniel, JM, additional

Published

2018

2. De novo GTP synthesis is a metabolic vulnerability for the interception of brain metastases.

Author

Kieliszek AM, Mobilio D, Bassey-Archibong BI, Johnson JW, Piotrowski ML, de Araujo ED, Sedighi A, Aghaei N, Escudero L, Ang P, Gwynne WD, Zhang C, Quaile A, McKenna D, Subapanditha M, Tokar T, Vaseem Shaikh M, Zhai K, Chafe SC, Gunning PT, Montenegro-Burke JR, Venugopal C, Magolan J, and Singh SK

Subjects

Humans, Animals, Cell Line, Tumor, Mice, Cell Proliferation, Female, Brain Neoplasms secondary, Brain Neoplasms metabolism, Brain Neoplasms genetics, Brain Neoplasms pathology, IMP Dehydrogenase metabolism, IMP Dehydrogenase genetics, Guanosine Triphosphate metabolism

Abstract

Patients with brain metastases (BM) face a 90% mortality rate within one year of diagnosis and the current standard of care is palliative. Targeting BM-initiating cells (BMICs) is a feasible strategy to treat BM, but druggable targets are limited. Here, we apply Connectivity Map analysis to lung-, breast-, and melanoma-pre-metastatic BMIC gene expression signatures and identify inosine monophosphate dehydrogenase (IMPDH), the rate-limiting enzyme in the de novo GTP synthesis pathway, as a target for BM. We show that pharmacological and genetic perturbation of IMPDH attenuates BMIC proliferation in vitro and the formation of BM in vivo. Metabolomic analyses and CRISPR knockout studies confirm that de novo GTP synthesis is a potent metabolic vulnerability in BM. Overall, our work employs a phenotype-guided therapeutic strategy to uncover IMPDH as a relevant target for attenuating BM outgrowth, which may provide an alternative treatment strategy for patients who are otherwise limited to palliation., Competing Interests: Declaration of interests A.M.K., J.W.J., C.V., J.M., and S.K.S. are listed as co-inventors for a PCT patent that has been filed, relating to this work., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

3. An HLA-G/SPAG9/STAT3 axis promotes brain metastases.

Author

Bassey-Archibong BI, Rajendra Chokshi C, Aghaei N, Kieliszek AM, Tatari N, McKenna D, Singh M, Kalpana Subapanditha M, Parmar A, Mobilio D, Savage N, Lam F, Tokar T, Provias J, Lu Y, Chafe SC, Swanton C, Hynds RE, Venugopal C, and Singh SK

Subjects

Adult, Humans, Adaptor Proteins, Signal Transducing, Brain pathology, Lung pathology, STAT3 Transcription Factor genetics, Brain Neoplasms secondary, HLA-G Antigens genetics, Lung Neoplasms pathology, Melanoma pathology, Breast Neoplasms pathology

Abstract

Brain metastases (BM) are the most common brain neoplasm in adults. Current BM therapies still offer limited efficacy and reduced survival outcomes, emphasizing the need for a better understanding of the disease. Herein, we analyzed the transcriptional profile of brain metastasis initiating cells (BMICs) at two distinct stages of the brain metastatic cascade-the "premetastatic" or early stage when they first colonize the brain and the established macrometastatic stage. RNA sequencing was used to obtain the transcriptional profiles of premetastatic and macrometastatic (non-premetastatic) lung, breast, and melanoma BMICs. We identified that lung, breast, and melanoma premetastatic BMICs share a common transcriptomic signature that is distinct from their non-premetastatic counterparts. Importantly, we show that premetastatic BMICs exhibit increased expression of HLA-G, which we further demonstrate functions in an HLA-G/SPAG9/STAT3 axis to promote the establishment of brain metastatic lesions. Our findings suggest that unraveling the molecular landscape of premetastatic BMICs allows for the identification of clinically relevant targets that can possibly inform the development of preventive and/or more efficacious BM therapies.

Published

2023

4. Low and steady wins the race: For melanoma brain metastases, is prevention better than a cure?

Author

Kieliszek AM, Aghaei N, Bassey-Archibong BI, and Singh SK

Subjects

Humans, Brain Neoplasms prevention & control, Brain Neoplasms secondary, Melanoma pathology

Published

2022

5. Kaiso is highly expressed in TNBC tissues of women of African ancestry compared to Caucasian women.

Author

Bassey-Archibong BI, Hercules SM, Rayner LGA, Skeete DHA, Smith Connell SP, Brain I, Daramola A, Banjo AAF, Byun JS, Gardner K, Dushoff J, and Daniel JM

Subjects

Adult, Barbados, Ethnicity, Female, Humans, Middle Aged, Nigeria, Triple Negative Breast Neoplasms ethnology, Transcription Factors metabolism, Triple Negative Breast Neoplasms metabolism

Abstract

Purpose: Triple-negative breast cancer (TNBC) is most prevalent in young women of African ancestry (WAA) compared to women of other ethnicities. Recent studies found a correlation between high expression of the transcription factor Kaiso, TNBC aggressiveness, and ethnicity. However, little is known about Kaiso expression and localization patterns in TNBC tissues of WAA. Herein, we analyze Kaiso expression patterns in TNBC tissues of African (Nigerian), Caribbean (Barbados), African American (AA), and Caucasian American (CA) women., Methods: Formalin-fixed and paraffin embedded (FFPE) TNBC tissue blocks from Nigeria and Barbados were utilized to construct a Nigerian/Barbadian tissue microarray (NB-TMA). This NB-TMA and a commercially available TMA comprising AA and CA TNBC tissues (AA-CA-YTMA) were subjected to immunohistochemistry to assess Kaiso expression and subcellular localization patterns, and correlate Kaiso expression with TNBC clinical features., Results: Nigerian and Barbadian women in our study were diagnosed with TNBC at a younger age than AA and CA women. Nuclear and cytoplasmic Kaiso expression was observed in all tissues analyzed. Analysis of Kaiso expression in the NB-TMA and AA-CA-YTMA revealed that nuclear Kaiso H scores were significantly higher in Nigerian, Barbadian, and AA women compared with CA women. However, there was no statistically significant difference in nuclear Kaiso expression between Nigerian versus Barbadian women, or Barbadian versus AA women., Conclusions: High levels of nuclear Kaiso expression were detected in patients with a higher degree of African heritage compared to their Caucasian counterparts, suggesting a role for Kaiso in TNBC racial disparity.

Published

2017

6. Loss of Kaiso expression in breast cancer cells prevents intra-vascular invasion in the lung and secondary metastasis.

Author

Kwiecien JM, Bassey-Archibong BI, Dabrowski W, Rayner LG, Lucas AR, and Daniel JM

Subjects

Animals, Blood Vessels pathology, Breast Neoplasms metabolism, Cell Line, Tumor, Female, Heart Ventricles pathology, Humans, Immunohistochemistry, Lung Neoplasms pathology, Mice, Inbred NOD, Mice, SCID, Models, Biological, Neoplasm Invasiveness, Phenotype, Thrombosis pathology, Breast Neoplasms pathology, Lung Neoplasms secondary, Transcription Factors metabolism

Abstract

The metastatic activity of breast carcinomas results from complex genetic changes in epithelial tumor cells and accounts for 90% of deaths in affected patients. Although the invasion of the local lymphatic vessels and veins by malignant breast tumor cells and their subsequent metastasis to the lung, has been recognized, the mechanisms behind the metastatic activity of breast tumor cells to other distal organs and the pathogenesis of metastatic cancer are not well understood. In this study, we utilized derivatives of the well-established and highly metastatic triple negative breast cancer (TNBC) cell line MDA-MB-231 (MDA-231) to study breast tumor metastasis in a mouse model. These MDA-231 derivatives had depleted expression of Kaiso, a POZ-ZF transcription factor that is highly expressed in malignant, triple negative breast cancers. We previously reported that Kaiso depletion attenuates the metastasis of xenografted MDA-231 cells. Herein, we describe the pathological features of the metastatic activity of parental (Kaisopositive) versus Kaisodepleted MDA-231 cells. Both Kaisopositive and Kaisodepleted MDA-231 cells metastasized from the original tumor in the mammary fat pad to the lung. However, while Kaisopositive cells formed large masses in the lung parenchyma, invaded large pulmonary blood vessels and formed secondary metastases and large tumors in the distal organs, Kaisodepleted cells metastasized only to the lung where they formed small metastatic lesions. Importantly, intravascular invasion and secondary metastases in distal organs were not observed in mice xenografted with Kaisodepleted cells. It thus appears that the lung may constitute a barrier for less invasive breast tumors such as the Kaisodepleted TNBC cells; this barrier may limit tumor growth and prevents Kaisodepleted TNBC cells from invading the pulmonary blood vessels and forming secondary metastases in distal organs.

Published

2017

7. Kaiso depletion attenuates the growth and survival of triple negative breast cancer cells.

Author

Bassey-Archibong BI, Rayner LG, Hercules SM, Aarts CW, Dvorkin-Gheva A, Bramson JL, Hassell JA, and Daniel JM

Subjects

Animals, Apoptosis physiology, BRCA1 Protein metabolism, Cell Line, Tumor, Female, Humans, MCF-7 Cells, Mice, Mice, Inbred NOD, Mice, SCID, Tumor Suppressor Protein p53, Cell Proliferation physiology, Transcription Factors metabolism, Triple Negative Breast Neoplasms metabolism, Triple Negative Breast Neoplasms pathology

Abstract

Triple negative breast cancers (TNBC) are highly aggressive and lack specific targeted therapies. Recent studies have reported high expression of the transcription factor Kaiso in triple negative tumors, and this correlates with their increased aggressiveness. However, little is known about the clinical relevance of Kaiso in the growth and survival of TNBCs. Herein, we report that Kaiso depletion attenuates TNBC cell proliferation, and delays tumor onset in mice xenografted with the aggressive MDA-231 breast tumor cells. We further demonstrate that Kaiso depletion attenuates the survival of TNBC cells and increases their propensity for apoptotic-mediated cell death. Notably, Kaiso depletion downregulates BRCA1 expression in TNBC cells expressing mutant-p53 and we found that high Kaiso and BRCA1 expression correlates with a poor overall survival in breast cancer patients. Collectively, our findings reveal a role for Kaiso in the proliferation and survival of TNBC cells, and suggest a relevant role for Kaiso in the prognosis and treatment of TNBCs.

Published

2017

8. Kaiso depletion attenuates transforming growth factor-β signaling and metastatic activity of triple-negative breast cancer cells.

Author

Bassey-Archibong BI, Kwiecien JM, Milosavljevic SB, Hallett RM, Rayner LG, Erb MJ, Crawford-Brown CJ, Stephenson KB, Bédard PA, Hassell JA, and Daniel JM

Abstract

Triple-negative breast cancers (TNBCs) represent a subset of breast tumors that are highly aggressive and metastatic, and are responsible for a disproportionate number of breast cancer-related deaths. Several studies have postulated a role for the epithelial-to-mesenchymal transition (EMT) program in the increased aggressiveness and metastatic propensity of TNBCs. Although EMT is essential for early vertebrate development and wound healing, it is frequently co-opted by cancer cells during tumorigenesis. One prominent signaling pathway involved in EMT is the transforming growth factor-β (TGFβ) pathway. In this study, we report that the novel POZ-ZF transcription factor Kaiso is highly expressed in TNBCs and correlates with a shorter metastasis-free survival. Notably, Kaiso expression is induced by the TGFβ pathway and silencing Kaiso expression in the highly invasive breast cancer cell lines, MDA-MB-231 (hereafter MDA-231) and Hs578T, attenuated the expression of several EMT-associated proteins (Vimentin, Slug and ZEB1), abrogated TGFβ signaling and TGFβ-dependent EMT. Moreover, Kaiso depletion attenuated the metastasis of TNBC cells (MDA-231 and Hs578T) in a mouse model. Although high Kaiso and high TGFβR1 expression is associated with poor overall survival in breast cancer patients, overexpression of a kinase-active TGFβR1 in the Kaiso-depleted cells was insufficient to restore the metastatic potential of these cells, suggesting that Kaiso is a key downstream component of TGFβ-mediated pro-metastatic responses. Collectively, these findings suggest a critical role for Kaiso in TGFβ signaling and the metastasis of TNBCs.

Published

2016

9. Methylation-dependent regulation of hypoxia inducible factor-1 alpha gene expression by the transcription factor Kaiso.

Author

Pierre CC, Longo J, Bassey-Archibong BI, Hallett RM, Milosavljevic S, Beatty L, Hassell JA, and Daniel JM

Subjects

Breast Neoplasms genetics, Cell Hypoxia genetics, Colonic Neoplasms genetics, Datasets as Topic statistics & numerical data, Female, Gene Regulatory Networks, HCT116 Cells, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Neoplasm Proteins biosynthesis, Neoplasm Proteins genetics, Promoter Regions, Genetic genetics, Signal Transduction, Transcription, Genetic, DNA Methylation, Gene Expression Regulation, Neoplastic, Hypoxia-Inducible Factor 1, alpha Subunit biosynthesis, Neoplasm Proteins physiology, Transcription Factors physiology

Abstract

Low oxygen tension (hypoxia) is a common characteristic of solid tumors and strongly correlates with poor prognosis and resistance to treatment. In response to hypoxia, cells initiate a cascade of transcriptional events regulated by the hypoxia inducible factor-1 (HIF-1) heterodimer. Since the oxygen-sensitive HIF-1α subunit is stabilized during hypoxia, it functions as the regulatory subunit of the protein. To date, while the mechanisms governing HIF-1α protein stabilization and function have been well studied, those governing HIF1A gene expression are not fully understood. However, recent studies have suggested that methylation of a HIF-1 binding site in the HIF1A promoter prevents its autoregulation. Here we report that the POZ-ZF transcription factor Kaiso modulates HIF1A gene expression by binding to the methylated HIF1A promoter in a region proximal to the autoregulatory HIF-1 binding site. Interestingly, Kaiso's regulation of HIF1A occurs primarily during hypoxia, which is consistent with the finding that Kaiso protein levels peak after 4 h of hypoxic incubation and return to normoxic levels after 24 h. Our data thus support a role for Kaiso in fine-tuning HIF1A gene expression after extended periods of hypoxia., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015