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1.
Mol Biol Rep ; 51(1): 124, 2024 Jan 16.
Article in English | MEDLINE | ID: mdl-38227097

ABSTRACT

BACKGROUND: Colorectal cancer (CRC) is a global health problem. The gut microbiome is now recognized as an important underlying factor to the initiation and progression of CRC. Fusobacterium nucleatum (FN) is one of the most studied bacteria in the aetiology of CRC. This study provided cohort evidence on the association of FN infection with clinicopathologic features in CRC patients. METHODS: We analysed the cancerous and adjacent non-cancerous formalin-fixed paraffin embedded (FFPE) tissue of 83 CRC patients from a single medical centre in Malaysia. TaqMan probe-based qPCR targeting the 16S rRNA gene was used to detect the presence of FN in the extracted FFPE DNA. The differences in FN expression between cancer and non-cancer tissues were evaluated. Association studies between FN infection in the tumour and relative FN abundance with available clinical data were conducted. RESULTS: FN was more abundant in the cancerous tissue compared to non-cancerous tissue (p = 0.0025). FN infection in the tumour was significantly associated with lymph node metastasis (p = 0.047) and cancer staging (p = 0.032), but not with other clinicopathologic variables. In double-positive patients where FN was detected in both cancerous and non-cancerous tissue, the expression fold-change of FN, calculated using 2-ΔΔCT formula, was significantly higher in patients with tumour size equal to or greater than 5 cm (p = 0.033) and in KRAS-mutated patients (p = 0.046). CONCLUSIONS: FN is enriched in CRC tumour tissue and is associated with tumour size, lymph node metastasis, cancer staging, and KRAS mutation in this single-centre small cohort study.


Subject(s)
Colorectal Neoplasms , Fusobacterium nucleatum , Humans , Cohort Studies , Fusobacterium nucleatum/genetics , Lymphatic Metastasis , Proto-Oncogene Proteins p21(ras)/genetics , RNA, Ribosomal, 16S/genetics , Colorectal Neoplasms/genetics
2.
J Cancer Res Clin Oncol ; 146(7): 1751-1764, 2020 Jul.
Article in English | MEDLINE | ID: mdl-32377840

ABSTRACT

PURPOSE: Although important for apoptosis, the signaling pathway involving MOAP-1(Modulator of Apoptosis 1), RASSF1A (RAS association domain family 1A), and Bax (Bcl-2 associated X protein) is likely to be dysfunctional in many types of human cancers due to mechanisms associated with gene mutation and DNA hyper-methylation. The purpose of the present study was to assess the potential impact of generating physiologically relevant signaling pathway mediated by MOAP-1, Bax, and RASSF1A (MBR) in cancer cells and chemo-drug resistant cancer cells. METHODS: The tricistronic expression construct that encodes MOAP-1, Bax, and RASSF1A (MBR) or its mutant, MOAP-1∆BH3L, Bax and RASSF1A (MBRX) was expressed from an IRES (Internal Ribosome Entry Site)-based tricistronic expression vector in human breast cancer cells, including MCF-7, MCF-7-CR (cisplatin resistant) and triple negative breast cancer cells, BMET05, for functional characterization through in vitro and in vivo models. RESULTS: Transient expression of MBR potently promoted dose-dependent apoptotic signaling and chemo-sensitization in the cancer cells, as evidenced by loss of cell viability, nuclei condensation and Annexin-V positive staining while stable expression of MBR in MCF-7 cells significantly reduced the number of MBR stable clone by 86% and the stable clone exhibited robust chemo-drug sensitivity. In contrast, MBRX stable clone exhibited chemo-drug resistance while transiently over-expressed MOAP-1ΔBH3L inhibited the apoptotic activity of MBR. Moreover, the spheroids derived from the MBR stable clone displayed enhanced chemo-sensitivity and apoptotic activity. In mouse xenograft model, the tumors derived from MBR stable clone showed relatively high level of tumor growth retardation associated with the increase in apoptotic activity, leading to the decreases in both tumor weight and volume. CONCLUSIONS: Expression of MBR in cancer cells induces apoptotic cell death with enhanced chemo-sensitization requiring the BH3L domain of MOAP-1. In animal model, the expression of MBR significantly reduces the growth of tumors, suggesting that MBR is a potent apoptotic sensitizer with potential therapeutic benefits for cancer treatment.


Subject(s)
Adaptor Proteins, Signal Transducing/genetics , Apoptosis Regulatory Proteins/genetics , Drug Resistance, Neoplasm/genetics , Gene Expression Regulation, Neoplastic , Protein Interaction Domains and Motifs , Tumor Suppressor Proteins/genetics , bcl-2-Associated X Protein/genetics , Adaptor Proteins, Signal Transducing/chemistry , Adaptor Proteins, Signal Transducing/metabolism , Animals , Apoptosis Regulatory Proteins/chemistry , Apoptosis Regulatory Proteins/metabolism , Cell Line, Tumor , Cell Survival , Disease Models, Animal , Genes, Reporter , Humans , Mice , Models, Biological , Protein Binding , Tumor Suppressor Proteins/metabolism , Xenograft Model Antitumor Assays , bcl-2-Associated X Protein/metabolism
3.
Diagnostics (Basel) ; 10(1)2019 Dec 23.
Article in English | MEDLINE | ID: mdl-31877940

ABSTRACT

Colorectal cancer (CRC) continues to be one of the most common cancers globally. The incidence has increased in developing countries in the past few decades, this could be partly attributed to aging populations and unhealthy lifestyles. While the treatment of CRC has seen significant improvement since the advent of target-specific therapies and personalized medicine, CRC is oftentimes detected at late or advanced stages, thereby reducing the efficacy of treatment. Hence, screening for early detection is still the key to combat CRC and to increase overall survival (OS). Considering that the field of medical diagnostics is moving towards molecular diagnostics, CRC can now be effectively screened and diagnosed with high accuracy and sensitivity. Depending on the tumor genotype and genetic profile of the individual, personalized treatments including tyrosine kinase inhibitor therapy and immunotherapy can be administered. Notably, there can be no one single treatment that is effective for all CRC patients due to the variation in tumor genetics, which highlights the importance of molecular diagnostics. This review provides insights on therapeutic modalities, molecular biomarkers, advancement of diagnostic technologies, and current challenges in managing CRC.

4.
Cell Signal ; 45: 54-62, 2018 05.
Article in English | MEDLINE | ID: mdl-29378289

ABSTRACT

Paraneoplastic Ma Family (PNMA) comprises a growing number of family members which share relatively conserved protein sequences encoded by the human genome and is localized to several human chromosomes, including the X-chromosome. Based on sequence analysis, PNMA family members share sequence homology to the Gag protein of LTR retrotransposon, and several family members with aberrant protein expressions have been reported to be closely associated with the human Paraneoplastic Disorder (PND). In addition, gene mutations of specific members of PNMA family are known to be associated with human mental retardation or 3-M syndrome consisting of restrictive post-natal growth or dwarfism, and development of skeletal abnormalities. Other than sequence homology, the physiological function of many members in this family remains unclear. However, several members of this family have been characterized, including cell signalling events mediated by these proteins that are associated with apoptosis, and cancer in different cell types. Furthermore, while certain PNMA family members show restricted gene expression in the human brain and testis, other PNMA family members exhibit broader gene expression or preferential and selective protein interaction profiles, suggesting functional divergence within the family. Functional analysis of some members of this family have identified protein domains that are required for subcellular localization, protein-protein interactions, and cell signalling events which are the focus of this review paper.


Subject(s)
Antigens, Neoplasm/metabolism , Apoptosis , Neoplasms/metabolism , Protein Interaction Maps , Animals , Antigens, Neoplasm/chemistry , Antigens, Neoplasm/genetics , Brain/metabolism , Genome, Human , Humans , Male , Paraneoplastic Syndromes, Nervous System/metabolism , Signal Transduction , Testis/metabolism
5.
J Cancer Res Clin Oncol ; 142(9): 1967-77, 2016 Sep.
Article in English | MEDLINE | ID: mdl-27424190

ABSTRACT

PURPOSE: Members of paraneoplastic Ma (PNMA) family have been identified as onconeuronal antigens, which aberrant expressions in cancer cells of patients with paraneoplastic disorder (PND) are closely linked to manifestation of auto-immunity, neuro-degeneration, and cancer. The purpose of present study was to determine the role of PNMA5 and its functional relationship to MOAP-1 (PNMA4) in human cancer cells. METHODS: PNMA5 mutants were generated through deletion or site-directed mutagenesis and transiently expressed in human cancer cell lines to investigate their role in apoptosis, subcellular localization, and potential interaction with MOAP-1 through apoptosis assays, fluorescence microscopy, and co-immunoprecipitation studies, respectively. RESULTS: Over-expressed human PNMA5 exhibited nuclear localization pattern in both MCF-7 and HeLa cells. Deletion mapping and mutagenesis studies showed that C-terminus of PNMA5 is responsible for nuclear localization, while the amino acid residues (391KRRR) within the C-terminus of PNMA5 are required for nuclear targeting. Deletion mapping and co-immunoprecipitation studies showed that PNMA5 interacts with MOAP-1 and N-terminal domain of PNMA5 is required for interaction with MOAP-1. Furthermore, co-expression of PNMA5 and MOAP-1 in MCF-7 cells significantly enhanced chemo-sensitivity of MCF-7 to Etoposide treatment, indicating that PNMA5 and MOAP-1 interact synergistically to promote apoptotic signaling in MCF-7 cells. CONCLUSIONS: Our results show that PNMA5 promotes apoptosis signaling in HeLa and MCF-7 cells and interacts synergistically with MOAP-1 through its N-terminal domain to promote apoptosis and chemo-sensitivity in human cancer cells. The C-terminal domain of PNMA5 is required for nuclear localization; however, both N-and C-terminal domains of PNMA5 appear to be required for pro-apoptotic function.


Subject(s)
Adaptor Proteins, Signal Transducing/chemistry , Antigens, Neoplasm/chemistry , Apoptosis Regulatory Proteins/chemistry , Apoptosis , Cell Nucleus/metabolism , Protein Interaction Domains and Motifs/physiology , Active Transport, Cell Nucleus/genetics , Adaptor Proteins, Signal Transducing/genetics , Antigens, Neoplasm/genetics , Antigens, Neoplasm/metabolism , Apoptosis/genetics , Apoptosis Regulatory Proteins/genetics , HEK293 Cells , HeLa Cells , Humans , MCF-7 Cells , Mutagenesis, Site-Directed , Protein Interaction Domains and Motifs/genetics , Protein Interaction Maps , Protein Transport/genetics , Signal Transduction/physiology
6.
Biochem Biophys Res Commun ; 473(1): 224-229, 2016 Apr 22.
Article in English | MEDLINE | ID: mdl-27003254

ABSTRACT

PNMA2, a member of the Paraneoplastic Ma Family (PNMA), was identified through expression cloning by using anti-sera from patients with paraneoplastic disorder. Tissue expression studies showed that PNMA2 was predominantly expressed in normal human brain; however, the protein was shown to exhibit abnormal expression profile as it was found to be expressed in a number of tumour tissues obtained from paraneopalstic patients. The abnormal expression profile of PNMA2 suggests that it might play an important role in tumorigenesis; however, apart from protein expression and immunological studies, the physiological role of PNMA2 remains unclear. In order to determine potential role of PNMA2 in tumorigenesis, and its functional relationship with PNMA family members, MOAP-1 (PNMA4) and PNMA1, expression constructs encoding the respective proteins were generated for both in vitro and in vivo studies. Our investigations showed that over-expressed MOAP-1 and PNMA1 promoted apoptosis and chemo-sensitization in MCF-7 cells as evidenced by condensed nuclei and Annexin-V positive MCF-7 cells; however, the effects mediated by these proteins were significantly inhibited or abolished when co-expressed with PNMA2 in MCF-7 cells. Furthermore, co-immunoprecipitation study showed that PNMA1 and MOAP-1 failed to associate with each other but readily formed respective heterodimer with PNMA2, suggesting that PNMA2 functions as antagonist of MOAP-1 and PNMA1 through heterodimeric interaction.


Subject(s)
Adaptor Proteins, Signal Transducing/metabolism , Antigens, Neoplasm/metabolism , Antigens/metabolism , Apoptosis Regulatory Proteins/metabolism , Drug Resistance, Neoplasm , Gene Expression Profiling , Gene Expression Regulation, Neoplastic , Nerve Tissue Proteins/metabolism , Antineoplastic Agents/chemistry , Apoptosis , Brain/metabolism , Cell Line, Tumor , Cell Nucleus/metabolism , Cell Survival , Dimerization , Etoposide/chemistry , Flow Cytometry , Genes, Reporter , Green Fluorescent Proteins/metabolism , HEK293 Cells , Humans , MCF-7 Cells , Protein Interaction Mapping
7.
J Biol Chem ; 290(49): 29217-30, 2015 Dec 04.
Article in English | MEDLINE | ID: mdl-26468282

ABSTRACT

Inflammasomes mediate inflammatory and cell death responses to pathogens and cellular stress signals via activation of procaspases-1 and -8. During inflammasome assembly, activated receptors of the NLR or PYHIN family recruit the adaptor protein ASC and initiate polymerization of its pyrin domain (PYD) into filaments. We show that ASC filaments in turn nucleate procaspase-8 death effector domain (DED) filaments in vitro and in vivo. Interaction between ASC PYD and procaspase-8 tandem DEDs optimally required both DEDs and represents an unusual heterotypic interaction between domains of the death fold superfamily. Analysis of ASC PYD mutants showed that interaction surfaces that mediate procaspase-8 interaction overlap with those required for ASC self-association and interaction with the PYDs of inflammasome initiators. Our data indicate that multiple types of death fold domain filaments form at inflammasomes and that PYD/DED and homotypic PYD interaction modes are similar. Interestingly, we observed condensation of procaspase-8 filaments containing the catalytic domain, suggesting that procaspase-8 interactions within and/or between filaments may be involved in caspase-8 activation. Procaspase-8 filaments may also be relevant to apoptosis induced by death receptors.


Subject(s)
Caspase 8/metabolism , Cytoskeletal Proteins/metabolism , Inflammasomes/metabolism , Apoptosis , CARD Signaling Adaptor Proteins , Caspase 1/metabolism , Catalytic Domain , Cell Death , HEK293 Cells , Humans , Inflammation , Microscopy, Fluorescence , Mutation , Protein Binding , Signal Transduction
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