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  1. Rajikin MH, Latif ES, Mar MR, Mat Top AG, Mokhtar NM
    Med Sci Monit, 2009 Dec;15(12):BR378-83.
    PMID: 19946227
    Previous studies have shown that nicotine enhances oxidative DNA damage and leads to increased lipid peroxidation, which affects embryo development. The present study investigated the effect of daily supplementation of gamma-tocotrienol on oocytes of nicotine-treated mice.
    Matched MeSH terms: Endoplasmic Reticulum, Rough/drug effects; Endoplasmic Reticulum, Rough/ultrastructure
  2. Wong WL, Brennan GP, Halton DW, Lim LH
    Parasitology, 2006 Mar;132(Pt 3):427-38.
    PMID: 16309563
    A study of the anterior adhesive apparatus (head organs) of Bravohollisia gussevi Lim, 1995 was carried out using light and electron microscopy. The anterior adhesive apparatus or head organs in B. gussevi comprise 6 circular openings or apertures in the antero-lateral region, associated pits lined with specialized microvillous tegument that differ from the general body tegument, a bundle of ducts, and uninucleate gland cells located lateral to the pharynx. The uninucleate glands of the anterior adhesive apparatus (head organs) comprise 2 types of cells, one kind of cell producing rod-like bodies (S1) and the other oval bodies (S2). The S1 bodies are filled with numerous, less electron-dense vesicles in an electron-dense matrix, while S2 bodies have no vesicles but contain a more homogeneous electron-dense matrix. Interlinking band-like structures were observed between S1 bodies. Similar band-like structures were found between S2 bodies. The formation of S1 bodies was followed by transmission electron microscopy. However, the formation of S2 bodies was unclear and could not be resolved. Uniciliated structures were also observed around the openings of the anterior adhesive apparatus. Each uniciliated structure is usually associated with an opening of a gland cell producing granular, electron-dense, secretory bodies, which differ from the secretions produced by the lateral gland cells of the anterior adhesive apparatus.
    Matched MeSH terms: Endoplasmic Reticulum, Rough/ultrastructure
  3. Yuhaniza Shafinie Kamsani, Mohd Hamim Rajikin
    This review summarizes the impact of tocotrienols (TCTs) as antioxidants in minimizing
    oxidative stress (OS), particularly in embryos exposed to OS causing agents. OS level is
    increased, for example, by nicotine, a major alkaloid content in cigarette, which is also a source
    of exogenous reactive oxygen species (ROS). Increased nicotine-induced OS increases cell
    stress response, which is a common trigger leading to embryonic cell death. Having more
    profound anti-oxidative stress effects than its counterpart tocopherol, TCTs improve blastocyst
    implantation, foetal growth, pregnancy outcome and survival of the neonates affected by
    nicotine. In reversing cell developmental arrest caused by nicotine-induced OS, TCTs enhances
    PDK-1 expression in the P13K/Akt pathway and permit embryonic development beyond the 4-
    cell stage with the production of more morulae. At the cytoskeletal level, TCTs increase the
    number of nicotine-induced apoptotic cells, through caspase 8 activation in the mitochondria.
    TCTs facilitate rough endoplasmic reticulum (rER) stress-mediated apoptosis and autophagy,
    resulting from nicotine-induced OS. Reduced vesicular population in TCT supplemented
    oocytes on the other hand may suggest reduced secretion of apoptotic cell bodies thus probably
    minimizing vesicular apoptosis during oocyte maturation. Further extensive research is
    required to develop TCTs as a tool in specific therapeutic approaches to overcome the
    detrimental effects of OS.
    Matched MeSH terms: Endoplasmic Reticulum, Rough
  4. Yuhaniza Shafinie Kamsani, Mohd Hamim Rajikin
    MyJurnal
    This review summarizes the impact of tocotrienols (TCTs) as antioxidants in minimizing oxidative stress (OS), particularly in embryos exposed to OS causing agents. OS level is increased, for example, by nicotine, a major alkaloid content in cigarette, which is also a source of exogenous reactive oxygen species (ROS). Increased nicotine-induced OS increases cell stress response, which is a common trigger leading to embryonic cell death. Having more profound anti-oxidative stress effects than its counterpart tocopherol, TCTs improve blastocyst implantation, foetal growth, pregnancy outcome and survival of the neonates affected by nicotine. In reversing cell developmental arrest caused by nicotine-induced OS, TCTs enhances PDK-1 expression in the P13K/Akt pathway and permit embryonic development beyond the 4-cell stage with the production of more morulae. At the cytoskeletal level, TCTs increase the number of nicotine-induced apoptotic cells, through caspase 8 activation in the mitochondria. TCTs facilitate rough endoplasmic reticulum (rER) stress-mediated apoptosis and autophagy, resulting from nicotine-induced OS. Reduced vesicular population in TCT supplemented oocytes on the other hand may suggest reduced secretion of apoptotic cell bodies thus probably minimizing vesicular apoptosis during oocyte maturation. Further extensive research is required to develop TCTs as a tool in specific therapeutic approaches to overcome the detrimental effects of OS.
    Matched MeSH terms: Endoplasmic Reticulum, Rough
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