Displaying publications 101 - 120 of 1087 in total

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  1. Antiapoptotic effect of taurine against NMDA-induced retinal excitotoxicity in rats
    Lambuk L, Iezhitsa I, Agarwal R, Bakar NS, Agarwal P, Ismail NM
    Neurotoxicology, 2019 01;70:62-71.
    PMID: 30385388 DOI: 10.1016/j.neuro.2018.10.009
    OBJECTIVE: N-methyl-D-aspartate (NMDA) excitotoxicity has been proposed to mediate apoptosis of retinal ganglion cells (RGCs) in glaucoma. Taurine (TAU) has been shown to have neuroprotective properties, thus we examined anti-apoptotic effect of TAU against retinal damage after NMDA exposure.

    METHODOLOGY: Sprague-Dawley rats were divided into 5 groups of 33 each. Group 1 was administered intravitreally with PBS and group 2 was similarly injected with NMDA (160 nmol). Groups 3, 4 and 5 were injected with TAU (320 nmol) 24 hours before (pre-treatment), in combination (co-treatment) and 24 hours after (post-treatment) NMDA exposure respectively. Seven days after injection, rats were sacrificed; eyes were enucleated, fixed and processed for morphometric analysis, TUNEL and caspase-3 staining. Optic nerve morphology assessment was done using toluidine blue staining. The estimation of BDNF, pro/anti-apoptotic factors (Bax/Bcl-2) and caspase-3 activity in retina was done using ELISA technique.

    RESULTS: Severe degenerative changes were observed in retinae after intravitreal NMDA exposure. The retinal morphology in the TAU pre-treated group appeared more similar to the control retinae and demonstrated a higher number of nuclei than the NMDA group both per 100 μm length (by 1.5-fold, p 

    Matched MeSH terms: Apoptosis/drug effects*; Apoptosis/physiology
  2. Fulltext Matrix association region/scaffold attachment region (MAR/SAR) sequence: its vital role in mediating chromosome breakages in nasopharyngeal epithelial cells via oxidative stress-induced apoptosis
    Tan SN, Sim SP, Khoo ASB
    BMC Mol. Biol., 2018 12 04;19(1):15.
    PMID: 30514321 DOI: 10.1186/s12867-018-0116-5
    BACKGROUND: Oxidative stress is known to be involved in most of the aetiological factors of nasopharyngeal carcinoma (NPC). Cells that are under oxidative stress may undergo apoptosis. We have previously demonstrated that oxidative stress-induced apoptosis could be a potential mechanism mediating chromosome breakages in nasopharyngeal epithelial cells. Additionally, caspase-activated DNase (CAD) may be the vital player in mediating the chromosomal breakages during oxidative stress-induced apoptosis. Chromosomal breakage occurs during apoptosis and chromosome rearrangement. Chromosomal breakages tend to cluster in certain regions, such as matrix association region/scaffold attachment region (MAR/SAR). We hypothesised that oxidative stress-induced apoptosis may result in chromosome breaks preferentially at the MAR/SAR sites. The AF9 gene at 9p22 was targeted in this study because 9p22 is a deletion site commonly found in NPC.

    RESULTS: By using MAR/SAR recognition signature (MRS), potential MAR/SAR sites were predicted in the AF9 gene. The predicted MAR/SAR sites precisely match to the experimentally determined MAR/SARs. Hydrogen peroxide (H2O2) was used to induce apoptosis in normal nasopharyngeal epithelial cells (NP69) and NPC cells (HK1). Nested inverse polymerase chain reaction was employed to identify the AF9 gene cleavages. In the SAR region, the gene cleavage frequency of H2O2-treated cells was significantly higher than that of the non-treated cells. A few chromosomal breakages were detected within the AF9 region which was previously found to be involved in the mixed lineage leukaemia (MLL)-AF9 translocation in an acute lymphoblastic leukaemia patient. As for the non-SAR region, no significant difference in the gene cleavage frequency was found between the untreated control and H2O2-treated cells. Furthermore, H2O2-induced cleavages within the SAR region were reduced by caspase-3 inhibitor, which indirectly inhibits CAD.

    CONCLUSIONS: These results reaffirm our previous findings that oxidative stress-induced apoptosis could be one of the potential mechanisms underlying chromosome breakages in nasopharyngeal epithelial cells. MAR/SAR may play a vital role in defining the location of chromosomal breakages mediated by oxidative stress-induced apoptosis, where CAD is the major nuclease.

    Matched MeSH terms: Apoptosis/drug effects; Apoptosis/genetics
  3. Impact of the apelin/APJ axis in the pathogenesis of Parkinson's disease with therapeutic potential
    Angelopoulou E, Paudel YN, Bougea A, Piperi C
    J Neurosci Res, 2021 Sep;99(9):2117-2133.
    PMID: 34115895 DOI: 10.1002/jnr.24895
    The pathogenesis of Parkinson's disease (PD) remains elusive. There is still no available disease-modifying strategy against PD, whose management is mainly symptomatic. A growing amount of preclinical evidence shows that a complex interplay between autophagy dysregulation, mitochondrial impairment, endoplasmic reticulum stress, oxidative stress, and excessive neuroinflammation underlies PD pathogenesis. Identifying key molecules linking these pathological cellular processes may substantially aid in our deeper understanding of PD pathophysiology and the development of novel effective therapeutic approaches. Emerging preclinical evidence indicates that apelin, an endogenous neuropeptide acting as a ligand of the orphan G protein-coupled receptor APJ, may play a key neuroprotective role in PD pathogenesis, via inhibition of apoptosis and dopaminergic neuronal loss, autophagy enhancement, antioxidant effects, endoplasmic reticulum stress suppression, as well as prevention of synaptic dysregulation in the striatum, excessive neuroinflammation, and glutamate-induced excitotoxicity. Underlying signaling pathways involve phosphoinositide 3-kinase (PI3K)/Akt/mammalian target of rapamycin, extracellular signal-regulated kinase 1/2, and inositol requiring kinase 1α/XBP1/C/EBP homologous protein. Herein, we discuss the role of apelin/APJ axis and associated molecular mechanisms on the pathogenesis of PD in vitro and in vivo and provide evidence for its challenging therapeutic potential.
    Matched MeSH terms: Apoptosis/drug effects; Apoptosis/physiology
  4. Drug-like dietary vanilloids induce anticancer activity through proliferation inhibition and regulation of bcl-related apoptotic proteins
    Mai CW, Kang YB, Nadarajah VD, Hamzah AS, Pichika MR
    Phytother Res, 2018 Jun;32(6):1108-1118.
    PMID: 29464796 DOI: 10.1002/ptr.6051
    In this study, a series of 20 structurally similar vanilloids (Vn) were tested for their antiproliferative effects against 12 human cancer cells: human breast (MCF-7 and MDA-MB-231), cervical (HeLa), ovarian (Caov-3), lung (A549), liver (HepG2), colorectal (HT-29 and HCT116), nasopharyngeal (CNE-1 and HK-1), and leukemic (K562 and CEM-SS) cancer cells. Among all the tested vanilloids, Vn16 (6-shogaol) exhibited the most potent cytotoxic effects against human colorectal cancer cells (HT-29). The apoptotic induction effects exhibited by Vn16 on HT-29 cells were confirmed using dual staining fluorescence microscopy and enzyme-linked immunosorbent assay. The effects of Vn16 on regulation of 43 apoptotic-related markers were determined in HT-29. The results suggested that 8 apoptotic markers (caspase 8, BAD, BAX, second mitochondrial-derived activator, caspase 3, survivin, bcl-2, and cIAP-2) were either upregulated or downregulated. These results further support the chemopreventive properties of foods that contain vanilloids.
    Matched MeSH terms: Apoptosis; Inhibitor of Apoptosis Proteins/metabolism*
  5. Hydrogel-based methods for engineering cellular microenvironment with spatiotemporal gradients
    Wang L, Li Y, Huang G, Zhang X, Pingguan-Murphy B, Gao B, et al.
    Crit Rev Biotechnol, 2016 Jun;36(3):553-65.
    PMID: 25641330 DOI: 10.3109/07388551.2014.993588
    Natural cellular microenvironment consists of spatiotemporal gradients of multiple physical (e.g. extracellular matrix stiffness, porosity and stress/strain) and chemical cues (e.g. morphogens), which play important roles in regulating cell behaviors including spreading, proliferation, migration, differentiation and apoptosis, especially for pathological processes such as tumor formation and progression. Therefore, it is essential to engineer cellular gradient microenvironment incorporating various gradients for the fabrication of normal and pathological tissue models in vitro. In this article, we firstly review the development of engineering cellular physical and chemical gradients with cytocompatible hydrogels in both two-dimension and three-dimension formats. We then present current advances in the application of engineered gradient microenvironments for the fabrication of disease models in vitro. Finally, concluding remarks and future perspectives for engineering cellular gradients are given.
    Matched MeSH terms: Apoptosis
  6. Fulltext Potential role of oxidative stress-induced apoptosis in mediating chromosomal rearrangements in nasopharyngeal carcinoma
    Tan SN, Sim SP, Khoo AS
    Cell Biosci, 2016;6:35.
    PMID: 27231526 DOI: 10.1186/s13578-016-0103-9
    Genetic aberrations have been identified in nasopharyngeal carcinoma (NPC), however, the underlying mechanism remains elusive. There are increasing evidences that the apoptotic nuclease caspase-activated deoxyribonuclease (CAD) is one of the players leading to translocation in leukemia. Oxidative stress, which has been strongly implicated in carcinogenesis, is a potent apoptotic inducer. Most of the NPC etiological factors are known to induce oxidative stress. Although apoptosis is a cell death process, cells possess the potential to survive apoptosis upon DNA repair. Eventually, the surviving cells may carry rearranged chromosomes. We hypothesized that oxidative stress-induced apoptosis may cause chromosomal breaks mediated by CAD. Upon erroneous DNA repair, cells that survive apoptosis may harbor chromosomal rearrangements contributing to NPC pathogenesis. This study focused on the AF9 gene at 9p22, a common deletion region in NPC. We aimed to propose a possible model for molecular mechanism underlying the chromosomal rearrangements in NPC.
    Matched MeSH terms: Apoptosis
  7. Fulltext Probable impact of age and hypoxia on proliferation and microRNA expression profile of bone marrow-derived human mesenchymal stem cells
    Mohd Ali N, Boo L, Yeap SK, Ky H, Satharasinghe DA, Liew WC, et al.
    PeerJ, 2016;4:e1536.
    PMID: 26788424 DOI: 10.7717/peerj.1536
    Decline in the therapeutic potential of bone marrow-derived mesenchymal stem cells (MSC) is often seen with older donors as compared to young. Although hypoxia is known as an approach to improve the therapeutic potential of MSC in term of cell proliferation and differentiation capacity, its effects on MSC from aged donors have not been well studied. To evaluate the influence of hypoxia on different age groups, MSC from young (<30 years) and aged (>60 years) donors were expanded under hypoxic (5% O2) and normal (20% O2) culture conditions. MSC from old donors exhibited a reduction in proliferation rate and differentiation potential together with the accumulation of senescence features compared to that of young donors. However, MSC cultured under hypoxic condition showed enhanced self-renewing and proliferation capacity in both age groups as compared to normal condition. Bioinformatic analysis of the gene ontology (GO) and KEGG pathway under hypoxic culture condition identified hypoxia-inducible miRNAs that were found to target transcriptional activity leading to enhanced cell proliferation, migration as well as decrease in growth arrest and apoptosis through the activation of multiple signaling pathways. Overall, differentially expressed miRNA provided additional information to describe the biological changes of young and aged MSCs expansion under hypoxic culture condition at the molecular level. Based on our findings, the therapeutic potential hierarchy of MSC according to donor's age group and culture conditions can be categorized in the following order: young (hypoxia) > young (normoxia) > old aged (hypoxia) > old aged (normoxia).
    Matched MeSH terms: Apoptosis
  8. Bisleuconothine A Induces Autophagosome Formation by Interfering with AKT-mTOR Signaling Pathway
    Wong CP, Seki A, Horiguchi K, Shoji T, Arai T, Nugroho AE, et al.
    J Nat Prod, 2015 Jul 24;78(7):1656-62.
    PMID: 26176165 DOI: 10.1021/acs.jnatprod.5b00258
    We have previously reported that bisleuconothine A (Bis-A), a novel bisindole alkaloid isolated from Leuconotis griffithii, showed cytostatic activity in several cell lines. In this report, the mechanism of Bis-A-induced cytostatic activity was investigated in detail using A549 cells. Bis-A did not cause apoptosis, as indicated by analysis of annexin V and propidium iodide staining. Expression of all tested apoptosis-related proteins was also unaffected by Bis-A treatment. Bis-A was found to increase LC3 lipidation in MCF7 cells as well as A549 cells, suggesting that Bis-A cytostatic activity may be due to induction of autophagy. Subsequent investigation via Western blotting and immunofluorescence staining indicated that Bis-A induced formation but prevented degradation of autophagosomes. Mechanistic studies showed that Bis-A down-regulated phosphorylation of protein kinase B (AKT) and its downstream kinase, PRAS40, which is an mTOR repressor. Moreover, phosphorylation of p70S6K, an mTOR-dependent kinase, was also down-regulated. Down-regulation of these kinases suggests that the increase in LC3 lipidation may be due to mTOR deactivation. Thus, the cytostatic activity shown by Bis-A may be attributed to its induction of autophagosome formation. The Bis-A-induced autophagosome formation was suggested to be caused by its interference with the AKT-mTOR signaling pathway.
    Matched MeSH terms: Apoptosis/drug effects; Apoptosis Regulatory Proteins/metabolism
  9. Fulltext Induction of apoptosis and oxidative stress in estrogen receptor-negative breast cancer, MDA-MB231 cells, by ethanolic mango seed extract
    Abdullah AS, Mohammed AS, Rasedee A, Mirghani ME, Al-Qubaisi MS
    BMC Complement Altern Med, 2015;15:45.
    PMID: 25881293 DOI: 10.1186/s12906-015-0575-x
    In this study, the effect of mango kernel extract in the induction of apoptosis of the breast cancer (MDA-MB-231) cell line was examined. This is an attempt to discover alternatives to current therapeutic regimes in the treatment of breast cancers.
    Matched MeSH terms: Apoptosis/drug effects*; Apoptosis Regulatory Proteins/metabolism
  10. Role of the CXCR4-SDF1-HMGB1 pathway in the directional migration of cells and regeneration of affected organs
    Haque N, Fareez IM, Fong LF, Mandal C, Abu Kasim NH, Kacharaju KR, et al.
    World J Stem Cells, 2020 Sep 26;12(9):938-951.
    PMID: 33033556 DOI: 10.4252/wjsc.v12.i9.938
    In recent years, several studies have reported positive outcomes of cell-based therapies despite insufficient engraftment of transplanted cells. These findings have created a huge interest in the regenerative potential of paracrine factors released from transplanted stem or progenitor cells. Interestingly, this notion has also led scientists to question the role of proteins in the secretome produced by cells, tissues or organisms under certain conditions or at a particular time of regenerative therapy. Further studies have revealed that the secretomes derived from different cell types contain paracrine factors that could help to prevent apoptosis and induce proliferation of cells residing within the tissues of affected organs. This could also facilitate the migration of immune, progenitor and stem cells within the body to the site of inflammation. Of these different paracrine factors present within the secretome, researchers have given proper consideration to stromal cell-derived factor-1 (SDF1) that plays a vital role in tissue-specific migration of the cells needed for regeneration. Recently researchers recognized that SDF1 could facilitate site-specific migration of cells by regulating SDF1-CXCR4 and/or HMGB1-SDF1-CXCR4 pathways which is vital for tissue regeneration. Hence in this study, we have attempted to describe the role of different types of cells within the body in facilitating regeneration while emphasizing the HMGB1-SDF1-CXCR4 pathway that orchestrates the migration of cells to the site where regeneration is needed.
    Matched MeSH terms: Apoptosis
  11. Fulltext Opioids in inducing cell apoptosis: a mini review
    Kua, Vee May Dianne, Ng Woei Kean, Sreenivasan, Sasidharan, Lai, Ngit Shin
    Journal of Biomedical and Clinical Sciences, 2017;2(1):53-61.
    MyJurnal
    Opioids are opium-like drugs which are commonly used as analgesics to treat moderate to severe pain. Apoptosis is a type of programmed cell death to remove unnecessary or damaged cells in an organism. Recently, the ability of opioids to induce apoptosis especially in cancer cell lines hasgained the interest of many researchers. This fascinating finding hasled to more testing of different kindsof opioids against different kindsof cancer cell lines in the course to search for the potential anticancer drugs. This review provides current information about opioids and apoptosis, and more importantly the compilations of researches over the years on how opioids are related to apoptotic cells death.
    Matched MeSH terms: Apoptosis
  12. Lack of correlation between Apo-1/Fas promoter polymorphism and susceptibility to systemic lupus erythematosus
    Radzi AM, Hun KS, Kong N, Yahaya N
    International Medical Journal (Tokyo), 2008;15(4):257-259.
    Background: Systemic lupus erythematosus (SLE) is a complex autoimmune disease exhibiting extensive clinical heterogeneity. Genetic factors and immune dysregulation play important roles in its development. Apoptosis is a physiologic process that regulates normal homeostasis. It is likely to contribute to the pathogenesis of autoimmune diseases by impairing elimination of autoreactive T and B cells. Apo-1/Fas which is a transmembrane protein mediates apoptosis and is a member of the tumour necrosis factor/nerve growth factor receptor family. It transduces the apoptotic signal into susceptible target cells. Recent studies have focused on the apoptosis mediated by these proteins in the causation of several autoimmune disorders including SLE. Aim: To determine the frequency of Apo-1/Fas promoter gene polymorphism in patients with systemic lupus erythematosus and healthy controls and to investigate its role in the susceptibility of SLE in a cohort of Malaysian Chinese SLE patients Materials and methods: 107 Chinese patients and 60 matched controls were genotyped using polymerase chain reaction (PCR) amplification followed by MvaI restriction enzyme digestion. The MvaI RFLP is located at the -670 position from the transcription starting site and results from an A→G substitution which alters the MvaI restriction site. Results: G/G genotype was found in 25% of patients and controls while the A/A genotype in 23% and 31.6% of patients and controls respectively. Heterozygous form was noted in 43% of the normal population compared to 51% in SLE patients. There was also no significant difference in the allele frequencies of G and A in both groups studied. Conclusion: We suggest that polymorphism of the Apo-1/Fas promoter gene does not play a role in disease susceptibility in Chinese patients with SLE. © 2008 Japan International Cultural Exchange Foundation.
    Matched MeSH terms: Apoptosis
  13. Fulltext Chlamydia and Its Many Ways of Escaping the Host Immune System
    Wong WF, Chambers JP, Gupta R, Arulanandam BP
    J Pathog, 2019;2019:8604958.
    PMID: 31467721 DOI: 10.1155/2019/8604958
    The increasing number of new cases of Chlamydia infection worldwide may be attributed to the pathogen's ability to evade various host immune responses. Summarized here are means of evasion utilized by Chlamydia enabling survival in a hostile host environment. The pathogen's persistence involves a myriad of molecular interactions manifested in a variety of ways, e.g., formation of membranous intracytoplasmic inclusions and cytokine-induced amino acid synthesis, paralysis of phagocytic neutrophils, evasion of phagocytosis, inhibition of host cell apoptosis, suppression of antigen presentation, and induced expression of a check point inhibitor of programmed host cell death. Future studies could focus on the targeting of these molecules associated with immune evasion, thus limiting the spread and tissue damage caused by this pathogen.
    Matched MeSH terms: Apoptosis
  14. Fulltext Cytotoxicity and Apoptosis Effects of Curcumin Analogue (2E,6E)-2,6-Bis(2,3-Dimethoxybenzylidine) Cyclohexanone (DMCH) on Human Colon Cancer Cells HT29 and SW620 In Vitro
    Rahim NFC, Hussin Y, Aziz MNM, Mohamad NE, Yeap SK, Masarudin MJ, et al.
    Molecules, 2021 Feb 26;26(5).
    PMID: 33652694 DOI: 10.3390/molecules26051261
    Colorectal cancer (CRC) is the third most common type of cancer worldwide and a leading cause of cancer death. According to the Malaysian National Cancer Registry Report 2012-2016, colorectal cancer was the second most common cancer in Malaysia after breast cancer. Recent treatments for colon cancer cases have caused side effects and recurrence in patients. One of the alternative ways to fight cancer is by using natural products. Curcumin is a compound of the rhizomes of Curcuma longa that possesses a broad range of pharmacological activities. Curcumin has been studied for decades but due to its low bioavailability, its usage as a therapeutic agent has been compromised. This has led to the development of a chemically synthesized curcuminoid analogue, (2E,6E)-2,6-bis(2,3-dimethoxybenzylidine) cyclohexanone (DMCH), to overcome the drawbacks. This study aims to examine the potential of DMCH for cytotoxicity, apoptosis induction, and activation of apoptosis-related proteins on the colon cancer cell lines HT29 and SW620. The cytotoxic activity of DMCH was evaluated using the [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] (MTT) cell viability assay on both of the cell lines, HT29 and SW620. To determine the mode of cell death, an acridine orange/propidium iodide (AO/PI) assay was conducted, followed by Annexin V/FITC, cell cycle analysis, and JC-1 assay using a flow cytometer. A proteome profiler angiogenesis assay was conducted to determine the protein expression. The inhibitory concentration (IC50) of DMCH in SW620 and HT29 was 7.50 ± 1.19 and 9.80 ± 0.55 µg/mL, respectively. The treated cells displayed morphological features characteristic of apoptosis. The flow cytometry analysis confirmed that DMCH induced apoptosis as shown by an increase in the sub-G0/G1 population and an increase in the early apoptosis and late apoptosis populations compared with untreated cells. A higher number of apoptotic cells were observed on treated SW620 cells as compared to HT29 cells. Human apoptosis proteome profiler analysis revealed upregulation of Bax and Bad proteins and downregulation of Livin proteins in both the HT29 and SW620 cell lines. Collectively, DMCH induced cell death via apoptosis, and the effect was more pronounced on SW620 metastatic colon cancer cells, suggesting its potential effects as an antimetastatic agent targeting colon cancer cells.
    Matched MeSH terms: Apoptosis/drug effects; Apoptosis Regulatory Proteins/genetics
  15. Fulltext The Role of MicroRNAs in Lung Cancer Metabolism
    Azizi MIHN, Othman I, Naidu R
    Cancers (Basel), 2021 Apr 05;13(7).
    PMID: 33916349 DOI: 10.3390/cancers13071716
    MicroRNAs (miRNAs) are short-strand non-coding RNAs that are responsible for post-transcriptional regulation of many biological processes. Their differential expression is important in supporting tumorigenesis by causing dysregulation in normal biological functions including cell proliferation, apoptosis, metastasis and invasion and cellular metabolism. Cellular metabolic processes are a tightly regulated mechanism. However, cancer cells have adapted features to circumvent these regulations, recognizing metabolic reprogramming as an important hallmark of cancer. The miRNA expression profile may differ between localized lung cancers, advanced lung cancers and solid tumors, which lead to a varying extent of metabolic deregulation. Emerging evidence has shown the relationship between the differential expression of miRNAs with lung cancer metabolic reprogramming in perpetuating tumorigenesis. This review provides an insight into the role of different miRNAs in lung cancer metabolic reprogramming by targeting key enzymes, transporter proteins or regulatory components alongside metabolic signaling pathways. These discussions would allow a deeper understanding of the importance of miRNAs in tumor progression therefore providing new avenues for diagnostic, therapeutic and disease management applications.
    Matched MeSH terms: Apoptosis
  16. Fulltext Apoptosis: Dual Role in Aetiology and Cure
    Wynn, Aye Aye, Myint, Ohnmar, Mya, Nang Khin
    Borneo Journal of Medical Sciences, 2019;13(3):5-10.
    MyJurnal
    Apoptosis is a programmed cell death which occurs following a variety of stimuli. Physiologically the process is important for morphogenesis of organs and homeostasis of different types of cells. Apoptotic cell death is responsible for a variety of pathologic states such as elimination of cell death in mutated cells, infected cells, tumour cells and transplant rejection well as the pathological atrophy. In this review, there is discussion about the control of apoptosis, detection methods of apoptosis, its association with infectious and non-communicable diseases. Intracellular microorganisms survive through inhibition of host cell apoptosis as well as they destroy the parenchymal cells causing impaired functions. It plays important role in tumourigenesis. There are possible therapeutic roles of drugs that modify apoptosis in human diseases.
    Matched MeSH terms: Apoptosis
  17. Fulltext Irigenin treatment alleviates doxorubicin (DOX)-induced cardiotoxicity by suppressing apoptosis, inflammation and oxidative stress via the increase of miR-425
    Guo L, Zheng X, Wang E, Jia X, Wang G, Wen J
    Biomed Pharmacother, 2020 May;125:109784.
    PMID: 32092815 DOI: 10.1016/j.biopha.2019.109784
    Doxorubicin (DOX) is an eff ;ective chemotherapeutic drug to suppress the progression of various types of tumors. However, its clinical application has been largely limited due to its potential cardiotoxicity. MicroRNAs (miRNAs) are emerged as critical regulators of cardiac injury. This study was aimed to explore the effects of irigenin (IR), as an isoflavonoid isolated from the rhizome of Belamcanda chinensis, on DOX-induced cardiotoxicity using the in vivo and in vitrostudies. The results indicated that DOX-induced fibrosis, cardiac dysfunction and injury were markedly attenuated by IR through reducing apoptosis, oxidative stress and inflammation in heart tissue samples. Importantly, DOX resulted in a remarkable decrease of miR-425 in heart tissues and cells, which was significantly rescued by IR. Receptor-interacting protein kinase 1 (RIPK1) was discovered to be a direct target of miR-425. DOX induced over-expression of RIPK1 both in vivo and in vitro, which were greatly decreased by IR. Transfection with miR-425 mimic could inhibit RIPK1 expression, whereas reducing miR-425 increased RIPK1 expression levels. In parallel to miR-425 over-expression, RIPK1 knockdown could attenuate apoptosis, reactive oxygen species (ROS) production and inflammation in HL-1 cells. However, over-expression of RIPK1 markedly abolished miR-425 mimic-induced apoptosis, ROS accumulation and inflammatory response in DOX-exposed cells. Herein, miR-425 could ameliorate cardiomyocyte injury through directly targeting RIPK1. Furthermore, activation of miR-425 by IR markedly improved DOX-induced cardiotoxicity, and therefore IR could be considered as a promising therapeutic agent for the treatment of cardiac injury.
    Matched MeSH terms: Apoptosis/drug effects; Apoptosis Regulatory Proteins/metabolism
  18. Stable W/O/W multiple nanoemulsion encapsulating natural tocotrienols and caffeic acid with cisplatin synergistically treated cancer cell lines (A549 and HEP G2) and reduced toxicity on normal cell line (HEK 293)
    Raviadaran R, Ng MH, Chandran D, Ooi KK, Manickam S
    Mater Sci Eng C Mater Biol Appl, 2021 Feb;121:111808.
    PMID: 33579452 DOI: 10.1016/j.msec.2020.111808
    This work aimed to evaluate the effects of encapsulated tocotrienols (TRF) and caffeic acid (CA) in water-in-oil-in-water (W/O/W) multiple nanoemulsion with cisplatin towards cancer cells. This work is important considering the limited efficacy of cisplatin due to tumour resistance, as well as its severe side effects. A549 and HEP G2 cancer cell lines were utilised for evaluating the efficacy of the encapsulated W/O/W while HEK 293 normal cell line was used for evaluating the toxicity. TRF, CA and CIS synergistically improved apoptosis in the late apoptotic phase in A549 and HEP G2 by 23.1% and 24.9%, respectively. The generation of ROS was enhanced using TRF:CA:CIS by 16.9% and 30.2% for A549 and HEP G2, respectively. Cell cycle analysis showed an enhanced cell arrest in the G0/G1 phase for both A549 and HEP G2. TRF, CA and CIS led to cell death in A549 and HEP G2. For HEK 293, ~33% cell viability was found when only CIS was used while >95% cell viability was observed when TRF, CA and CIS were used. This study demonstrates that the encapsulated TRF and CA in W/O/W with CIS synergistically improved therapeutic efficacy towards cancer cells, as well as lowered the toxicity effects towards normal cells.
    Matched MeSH terms: Apoptosis
  19. Fulltext Determination of time of death based on basic histological stain and immunostain changes
    Ezlan Elias, Khairul Osman, Sharifa Abdul Aziz, Abdul Halim Mansar, Siti Fatimah Ibrahim, Jamaludin Mohamed
    Jurnal Sains Kesihatan Malaysia, 2004;2(2):63-70.
    MyJurnal
    Establishing time of death has been extensively studied for the last 30 years. Parameters that have been studied included body temperature, biochemistry of rigor mortis, putrefactive changes and entomology. Despite an extensive study in these parameters it was found that all of the parameters were very much dependent on external factors like changes in surrounding temperature and activities done prior to death. To solve this problem, we decided to monitor the mechanism that occurs during death. Until now, various researches have found that during the early stage of death, heart and perfusion to the cells will stop. This will cause the cells to start the death process. The death of the cell will occurs either through apoptosis or necrosis. During apoptosis the cells will switch on and off a few proteins in a sequence. Based on this understanding, a study was conducted to determine if area ratio of apoptosis: necrosis and apoptotic p53 and Bcl-2 markers can be used as a reliable postmortem interval marker (PMI). Sampling of the study had involved 100 dead human skins with a known PMI. All samples were obtained from forensic unit of Hospital Kuala Lumpur (UFHKL). Ratio of apoptosis: necrosis areas were determined using hematoxilin and eosin staining while apoptosis p53 and Bcl-2 markers were done using an apoptosis kit. All staining were then indexed and plotted against PMI data obtained from UFHKL. Results indicated that there were no significant correlations between ratio of apoptosis: necrosis area against PMI (p = 0.144). Whereas for both apoptotic markers p53 and Bcl-2 PMI had shown a significant correlation (p < 0.000 for both results). In conclusion, we suggest that p53 and Bcl-2 parameters should be studied further since it is very likely that it could be a good indicator for PMI.
    Matched MeSH terms: Apoptosis
  20. Fulltext An introduction to DARC technology
    Ahmad SS
    Saudi J Ophthalmol, 2017 Jan-Mar;31(1):38-41.
    PMID: 28337061 DOI: 10.1016/j.sjopt.2016.08.001
    Glaucoma is a multi-factorial neurodegenerative disorder. The common denominator in all types of glaucomas is retinal ganglion cell death through apoptosis. However, this cellular demise in glaucoma is detected late by structural or functional analyses. There can be a 10-year delay prior to the appearance of visual field defects and pre-perimetric glaucoma is an issue still being addressed. However, a new cutting-edge technology called detection of apoptosing retinal cells (DARC) is being developed. This technique is capable of non-invasive, real-time visualization of apoptotic changes at the cellular level. It can detect glaucomatous cell damage at a very early stage, at the moment apoptosis starts, and thus management can be initiated even prior to development of visual field changes. In future, this technique will also be able to provide conclusive evidence of the effectiveness of treatment protocol and the need for any modifications which may be required. This article aims to provide a concise review of DARC technology.
    Matched MeSH terms: Apoptosis
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