Your search keyword '"Hui-Mei Lee"' showing total 7 results

1. Author response: Genome-wide CRISPR screens of oral squamous cell carcinoma reveal fitness genes in the Hippo pathway

Author

James G. R. Gilbert, Emanuel Gonçalves, Aik Choon Tan, Stacey Price, Mathew J. Garnett, Pei San Yee, Vivian Kh Tiong, Hui Mei Lee, Ultan McDermott, Sok Ching Cheong, Jessica Bateson, Shi Mun Yee, Fiona M. Behan, and Annie Wai Yeeng Chai

Subjects

Genetics, Hippo signaling pathway, CRISPR, Basal cell, Biology, Genome, Gene

Published

2020

2. Genome-wide CRISPR screens of oral squamous cell carcinoma reveal fitness genes in the Hippo pathway

Author

Pei San Yee, Fiona M. Behan, Hui Mei Lee, Sok Ching Cheong, Emanuel Gonçalves, Annie Wai Yeeng Chai, Jessica Bateson, Stacey Price, Shi Mun Yee, James G. R. Gilbert, Ultan McDermott, Vivian Kh Tiong, Mathew J. Garnett, and Aik Choon Tan

Subjects

0301 basic medicine, Mouth cancer, QH301-705.5, Hippo pathway, Science, Biology, Protein Serine-Threonine Kinases, therapeutic targets, Genome, General Biochemistry, Genetics and Molecular Biology, CRISPR screen, 03 medical and health sciences, 0302 clinical medicine, Genome editing, fitness genes, Cell Line, Tumor, medicine, CRISPR, Humans, Clustered Regularly Interspaced Short Palindromic Repeats, Hippo Signaling Pathway, Biology (General), Gene, Cancer Biology, Hippo signaling pathway, General Immunology and Microbiology, Squamous Cell Carcinoma of Head and Neck, General Neuroscience, Gene Expression Profiling, Cancer, Genetics and Genomics, General Medicine, medicine.disease, 3. Good health, Gene Expression Regulation, Neoplastic, oral squamous cell carcinoma, stomatognathic diseases, 030104 developmental biology, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Medicine, Mouth Neoplasms, Signal Transduction, Research Article, Human

Abstract

New therapeutic targets for oral squamous cell carcinoma (OSCC) are urgently needed. We conducted genome-wide CRISPR-Cas9 screens in 21 OSCC cell lines, primarily derived from Asians, to identify genetic vulnerabilities that can be explored as therapeutic targets. We identify known and novel fitness genes and demonstrate that many previously identified OSCC-related cancer genes are non-essential and could have limited therapeutic value, while other fitness genes warrant further investigation for their potential as therapeutic targets. We validate a distinctive dependency on YAP1 and WWTR1 of the Hippo pathway, where the lost-of-fitness effect of one paralog can be compensated only in a subset of lines. We also discover that OSCCs with WWTR1 dependency signature are significantly associated with biomarkers of favorable response toward immunotherapy. In summary, we have delineated the genetic vulnerabilities of OSCC, enabling the prioritization of therapeutic targets for further exploration, including the targeting of YAP1 and WWTR1., eLife digest Many types of cancer now have 'targeted treatments', which specifically home in on genes cancer cells rely on for survival. But there are very few of these treatments available for the most common type of mouth cancer, oral squamous cell carcinoma, which around 350,000 people are diagnosed with each year. Designing targeted treatments relies on detailed knowledge of the genetic makeup of the cancer cells. But, little is known about which genes drive oral squamous cell carcinoma, especially among patients living in Asia, which is where over half of yearly cases are diagnosed. One way to resolve this is to use gene editing technology to find the genes that the cancer cells need to survive. Now, Chai et al. have used a gene editing tool known as CRISPR to examine 21 cell lines from patients diagnosed with oral squamous cell carcinoma. Most of these lines were from Asian patients, some of whom had a history of chewing betel quid which increases the risk of mouth cancer. By individually inactivating genes in these cell lines one by one, Chai et al. were able to identify 918 genes linked to the survival of the cancer cells. Some of these genes have already been associated with the spread of other types of cancer, whereas others are completely unique to oral squamous cell carcinoma. The screen also discovered that some cell lines could not survive without genes involved in a signalling pathway called Hippo, which is known to contribute to the progression of many other types of cancer. Uncovering the genes associated with oral squamous cell carcinoma opens the way for the development of new targeted treatments. Targeted therapies already exist for some of the genes identified in this study, and it may be possible to repurpose them as a treatment for this widespread mouth cancer. But, given that different cell lines relied on different genes to survive, the next step will be to identify which genes to inactivate in each patient.

Published

2020

3. Characterization of an Acute Myeloid Leukemia Murine Model Driven By MLL/AF9: Effect of Retroviral Insertion Sites and Somatic Mutations on Gene Expression

Author

Stefan K. Bohlander, Rhea Desai, Peter Browett, Hui Mei Lee, Niloofar Zandvakili, and Purvi M. Kakadia

Subjects

Murine model, Somatic cell, Immunology, Gene expression, Cancer research, Myeloid leukemia, Cell Biology, Hematology, Biology, Biochemistry

Abstract

The MLL/AF9 fusion is found in approximately 30% of MLL-rearranged leukemias and has an intermediate prognosis. Genomically well-characterized murine leukemia models enable us to understand leukemogenesis. We generated a retroviral transduction murine bone marrow transplantation leukemia model (MBMTLM) using the MLL/AF9 fusion gene. Fifteen of 20 mice transplanted with syngeneic bone marrow transduced with a MLL/AF9 carrying retrovirus developed leukemia after a median latency of 149 days. Half a million leukemic bone marrow (LBM) cells from two of these primary leukemias, MA03-P and MA86-P, were transplanted into irradiated recipient mice to establish secondary leukemias, MA03-S (n=3) and MA86-S (n=4). Half a million LBM cells from these secondary leukemias were further transplanted into irradiated recipient mice to generate tertiary leukemias, MA03-T (n=3) and MA86-T (n=4). The latency of the leukemias shortened from 141 days in MA03-P to 18 and 22 days in MA03-S and MA03-T, respectively. Similarly, MA86-P had a latency of 98 days, and the latency was reduced to about 28 days in MA986-S and MA986-T. We used retroviral insertion sites (RISs) to track leukemia clones during serial transplantation. We identified 5 RISs in MA03-P. One RIS, RIS#1-03 at chromosome 7:4602500-4609499 accounted for 52.5% of the total RIS-related reads in MA03-P, while the other four RISs were each represented by fewer than 5% of the reads. Only RIS#1-03 was detected in all of the MA03 secondary and tertiary leukemias , indicating that the cells with RIS#1-03 were the dominant clone in MA03 leukemias. Two RISs were detected in MA86-P: RIS#1-86 at chromosome 19:41338500-41341999 and RIS#2-86 at chromosome 10:127106000-127109499 at 46.7% and 2.5%, respectively . RIS#1-986 was contained in the dominant clone as only this RIS was subsequently detected in the secondary and tertiary MA86 leukemias. The relatively long latency to leukemia development in our MLL/AF9 model was most likely due to the requirement of cooperating somatic mutations. We performed whole exome sequencing on DNA from LBM (n=15) and DNA from their corresponding germline (n=2). An average of 4.5 of single nucleotide variants (SNVs) and 11.4 indels affecting protein coding sequences were found in the MA03 family of leukemias (n=7) which, among others, mutated genes involved in tyrosine kinase pathways such as Epha5 and Pik3r1. We identified an average of 14.8 (SNVs) and 0.5 indels per exome in the MA86 leukemias (n=8). Transcription regulator (Brd1) and tumor suppressor genes (Stk11 and Trp53) were affected by somatic changes in the MA86 family. RNA sequencing was performed on LBM (n=15) and healthy bone marrow (HBM) (n=8). Principal component analysis (PCA) on the expression profiles showed that LBM samples clustered together. Differential gene expression analysis identified genes such as Six1, Eya1 and Bcor which had been reported in previous studies to be essential for leukemogenesis in MLL/AF9 murine model. We also observed downregulation of genes such as Gata2, Btg1, Ifitm1, which had been implicated in other types of leukemias. We next investigated the effect of the RISs and somatic mutations on gene expression. RIS#1-903 was in intron 1 of Ppp6r1. A reduction in fragments per kilobase of transcript per Million mapped reads (FPKM) of Ppp6r1 was observed in MA03 family leukemias compared to leukemias of the MA86 family which did not have RIS#1-03 and showed no difference to HBM samples (MA03: 87.71±1.5; MA86: 132.1±5.1; HBM: 77.56±1.7, p< 0.001). We then determined the expression of Tm9sf3 as it is located 600bp away from RIS#1-986. The FPKM of Tm9sf3 was significantly higher in LBM (both of MA903 and MA986 leukemias) than in HBM (LBM: 146.0±12.7; HBM: 64.66±2.8, p In conclusion, we have established a MBMTLM driven by the MLL/AF9 fusion gene. This well-characterized model provides insights to further understand leukemia development and drug testing. Moreover, we demonstrated that RISs can have an impact on gene expression. Future work on whether Ppp6r1 and Tm9sf3 identified by our RIS analysis are drivers in MLL/AF9 leukemias is warranted. Disclosures Browett: MSD: Membership on an entity's Board of Directors or advisory committees; Janssen: Membership on an entity's Board of Directors or advisory committees; AbbVie: Honoraria.

Published

2021

4. Clonal Evolution in a Murine CALM-AF10 Leukemia: Evidence of Functional Heterogeneity of Leukemia Stem Cells

Author

Purvi M. Kakadia, Rhea Desai, Stefan K. Bohlander, Peter Browett, Alyona Oryshchuk, Hui Mei Lee, and Niloofar Zandvakili

Subjects

Leukemia, Immunology, medicine, Cancer research, Cell Biology, Hematology, Stem cell, Biology, medicine.disease, Biochemistry, Somatic evolution in cancer

Abstract

Myeloid leukemia is caused by acquired genetic changes in haematopoietic stem cells. The combination of stepwise acquisition of genetic changes together with selection of the fittest clones results in great genetic and clonal heterogeneity. We used a CALM-AF10-driven retroviral transduction murine bone marrow transplantation leukemia model (MBMTLM) to study clonal hierarchy and clonal evolution starting with a primary leukaemia (Fig 1: Leu7) which developed after 131 days and had B220 marker expression on 4% of its cells. Limiting dilution assays (LDAs) showed that the leukemia stem cell (LSC) frequency of Leu7 was 1:2339 (95% confidence interval: 1:794-1:6885). Whole exome sequencing (WES) and analysis of the variant allele fraction of somatic mutations revealed that Leu7 was composed of a main clone (Fig 1: grey) with two subclones (blue and red). Half a million leukemic cells from Leu7 were transplanted into 4 sublethally irradiated recipients, which all developed secondary leukemias after a latency of 19 days (Leu7Sec1 to 4). All secondary leukemias showed similar B220 expression levels to Leu7, and all showed an expansion of the blue subclone. When again half a million cells each of one of the secondary leukemias (Leu7Sec2) were transplanted into 4 recipients, the expansion of the blue subclone continued, the red subclone vanished and, surprisingly, the proportion of B220 expressing cells increased to between 16 to 26%. LDAs showed that the LSC frequency of Leu7Sec2 had not changed. However, several of the leukemias from the LDAs had greatly varying latencies (27 to 193 days) and B220 marker expression (2 to 85%). Four of these tertiary LDA leukemias (Leu7Sec2Ter5 to 8), which each arose from a single LSC, were analysed more closely using WES. Leu7Sec2Ter5 showed a similar latency (27 days) and B220 expression levels like Leu7SecTer1 to 4 and also had the expansion of the blue subclone. Leu7Sec2Ter6 had a long latency of 69 days and a very low B220 expression. Leu7Sec2Ter6 was driven by a new, third subclone (pink), and both the blue and the red subclone disappeared. Very interestingly, Leu7Sec2Ter7 and Leu7Sec2Ter8 had a very long latency of 193 days, and showed an expansion of a subclone (green) of the red subclone. The B220 expression was high (37%) to very high (85%) in these two leukemias. Taken together, these observations paint an interesting picture with the blue subclone outcompeting the red subclone, as leukemias arising from the red subclone only appear after a long latency and in leukemias initiated by a single LSC, when there is no blue subclone LSC present. As the four leukemias (Leu7Sec2Ter5 to 8), which each were derived from a single LSC, showed striking differences in latency and surface marker expression, it can be concluded that this variation in phenotype is an intrinsic property of an individual LSCs most likely a consequence of the distinct combination of somatic mutations present in the individual LSCs. These observations also suggest that distinct LSCs with different properties might be present in a single human leukemia. Figure 1 Figure 1. Disclosures Browett: Janssen: Membership on an entity's Board of Directors or advisory committees; MSD: Membership on an entity's Board of Directors or advisory committees; AbbVie: Honoraria.

Published

2021

5. The 4717C G polymorphism in periplakin modulates sensitivity to EGFR inhibitors

Author

Chai Phei Gan, Sok Ching Cheong, Pei San Yee, Vyomesh Patel, Hui Mei Lee, Bernard Kok Bang Lee, Gregory Michael Kelly, Muhammad Zaki Hidayatullah Fadlullah, and Nur Syafinaz Zainal

Subjects

0301 basic medicine, Genotype, lcsh:Medicine, Drug resistance, Biology, Polymorphism, Single Nucleotide, Biomarkers, Pharmacological, Article, 03 medical and health sciences, Erlotinib Hydrochloride, 0302 clinical medicine, Cell Line, Tumor, Carcinoma, medicine, Humans, heterocyclic compounds, Phosphorylation, lcsh:Science, Periplakin, neoplasms, EGFR inhibitors, Multidisciplinary, lcsh:R, Plakins, medicine.disease, Isogenic human disease models, 3. Good health, respiratory tract diseases, ErbB Receptors, 030104 developmental biology, Cell culture, Drug Resistance, Neoplasm, Cancer research, Carcinoma, Squamous Cell, Quinazolines, lcsh:Q, Mouth Neoplasms, Erlotinib, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction

Abstract

The use of EGFR inhibitors on oral squamous cell carcinoma (OSCC) as monotherapy yielded modest clinical outcomes and therefore would benefit from biomarkers that could predict which patient subsets are likely to respond. Here, we determined the efficacy of erlotinib in OSCC cell lines, and by comparing sensitive and resistant lines to identify potential biomarkers. We focused on the 4717C > G polymorphism in periplakin (PPL) where the CC genotype was associated with erlotinib resistance. To validate this, erlotinib-resistant cell lines harbouring CC genotype were engineered to overexpress the GG genotype and vice versa. Isogenic cell lines were then studied for their response to erlotinib treatment. We demonstrated that overexpression of the GG genotype in erlotinib-resistant lines sensitized them to erlotinib and inhibition of AKT phosphorylation. Similarly, the expression of the CC genotype conferred resistance to erlotinib with a concomitant increase in AKT phosphorylation. We also demonstrated that cell lines with the CC genotype generally are more resistant to other EGFR inhibitors than those with the GG genotype. Overall, we showed that a specific polymorphism in the PPL gene could confer resistance to erlotinib and other EGFR inhibitors and further work to evaluate these as biomarkers of response is warranted.

Published

2018

6. Utilizing Zebrafish to Identify Anti-(Lymph)Angiogenic Compounds for Cancer Treatment: Promise and Future Challenges

Author

Kazuhide S. Okuda, Hui Mei Lee, Vyomesh Patel, Mei Fong Ng, and Vithya Velaithan

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Physiology, Angiogenesis, Context (language use), Angiogenesis Inhibitors, Biology, 03 medical and health sciences, Renal cell carcinoma, Physiology (medical), Drug Discovery, medicine, Animals, Humans, Lymphangiogenesis, Molecular Biology, Zebrafish, Neovascularization, Pathologic, Cancer, medicine.disease, biology.organism_classification, Disease Models, Animal, 030104 developmental biology, Lymphatic system, Cancer research, Lymph, Cardiology and Cardiovascular Medicine

Abstract

Cancer metastasis which predominantly occurs through blood and lymphatic vessels, is the leading cause of death in cancer patients. Consequently, several anti-angiogenic agents have been approved as therapeutic agents for human cancers such as metastatic renal cell carcinoma. Also, anti-lymphangiogenic drugs such as monoclonal antibodies VGX-100 and IMC-3C5 have undergone phase I clinical trials for advanced and metastatic solid tumors. Although anti-tumor-associated angiogenesis has proven to be a promising therapeutic strategy for human cancers, this approach is fraught with toxicities and development of drug resistance. This emphasizes the need for alternative anti-(lymph)angiogenic drugs. The use of zebrafish has become accepted as an established model for high-throughput screening, vascular biology, and cancer research. Importantly, various zebrafish transgenic lines have now been generated that can readily discriminate different vascular compartments. This now enables detailed in vivo studies that are relevant to both human physiological and tumor (lymph)angiogenesis to be conducted in zebrafish. This review highlights recent advancements in the zebrafish anti-vascular screening platform and showcases promising new anti-(lymph)angiogenic compounds that have been derived from this model. In addition, this review discusses the promises and challenges of the zebrafish model in the context of anti-(lymph)angiogenic compound discovery for cancer treatment.

Published

2016

7. Canthin-6-one Isolated fromBrucea javanicaRoot Blocks Cancer Cells in the G2/M phase and Synergizes with Cisplatin

Author

Pei Jean Tan, Hui Mei Lee, Vyomesh Patel, Sui Kiong Ling, Norazwana Samat, and Mei Fong Ng

Subjects

0301 basic medicine, Pharmacology, Cisplatin, biology, Combination therapy, Cell growth, Chemistry, Cancer, Plant Science, General Medicine, biology.organism_classification, medicine.disease, HeLa, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Complementary and alternative medicine, 030220 oncology & carcinogenesis, Drug Discovery, Cancer cell, medicine, Cancer research, Cytotoxic T cell, MTT assay, medicine.drug

Abstract

Poor prognosis of most cancer patients is in part, due to limited therapeutic options. Furthermore, as chemotherapy remains the standard-of-care for several cancers, partial or lack of response remains a concern and compounding this are the adverse side effects of the treatment that severely impacts the quality of life and survival. In pursuit of improving treatment options, we have opted to investigate the unique chemical skeleton of natural compounds as anticancer therapies. In this study, from an initial screen of 31 crude methanol extracts from ~15 plant species using HL60 cells, the root extract of Brucea javanica (L.) Merr indicated the presence of bioactive compounds. Subsequent bioassay-guided purification on the root extract yielded two alkaloids canthin-6-one (1) and bruceolline J (2), which were further investigated for their bioactivity in representative human cancer lines and normal phenotypic counterparts. MTT assay demonstrated ED50values from 34.7–72.9 μM for 1 and 16.0–54.0 μM for 2 for the cancer cell lines panel. NP69 cells also demonstrated sensitivity to both compounds (9.3 μM and 4.5 μM). As amount of 2 isolated were limiting, we focused on 1 to further identify novel anticancer properties in PC3 and HeLa cancer lines. We observed at 30 μM, 1 induced a G2/M phase arrest coinciding with decreased cell proliferation. Furthermore, 1 was able to synergize the cytotoxic effect of cisplatin when used in combination, suggesting the potential of combination therapy for those less responsive lesions to standard chemotherapy.

Published

2017