Displaying publications 21 - 23 of 23 in total

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  1. Fulltext Functional Antagonism of Sphingosine-1-Phosphate Receptor 1 Prevents Harmaline-Induced Ultrastructural Alterations and Caspase-3 Mediated Apoptosis
    Dahmardeh N, Shabani M, Basiri M, Kalantaripour TP, Asadi-Shekaari M
    Malays J Med Sci, 2019 Jul;26(4):28-38.
    PMID: 31496891 DOI: 10.21315/mjms2019.26.4.4
    Background: There is a meaningful necessity for a targeted therapy of essential tremor (ET), as medications have not been developed specifically for ET. For nearly a century, many drugs have been applied in the treatment of tremor but the drug treatment of ET remains still unknown. Some potential therapeutic factors such fingolimod (FTY720) can be effectively used to treat ET in animals. In the present research, the effect of FTY720, the immunomodulatory sphingosine 1-phosphate (S1P) analog, on degeneration of cerebellar and olivary neurons induced by harmaline in male rats was investigated.

    Methods: The animals were allotted into control dimethyl sulfoxide (DMSO), saline + harmaline [30 mg/kg, intraperitoneally, (i.p.)], harmaline + FTY720 (1 mg/kg, i.p, 1 h and 24 h before harmaline injection) groups (n = 10). The cerebellum and inferior olive nucleus (ION) were studied for neuronal degeneration using immunohistochemistry (IHC) and ultrastructural study by transmission electron microscopy (TEM) techniques.

    Results: Harmaline caused neuronal cell loss, caspase-3 mediated apoptosis, astrocytosis and ultrastructural changes in cerebellar Purkinje cells and inferior olive neurons. FTY720 exhibited neuroprotective effects on cerebellar Purkinje cells and inferior olivary neurons.

    Conclusion: These results suggest that FTY720 has potential efficacy for prevention of ET neurodegeneration and astrocytosis induced by harmaline in male rats.

    Matched MeSH terms: Cerebellum
  2. Decreased glutamine synthetase, increased citrulline-nitric oxide cycle activities, and oxidative stress in different regions of brain in epilepsy rat model
    Swamy M, Yusof WR, Sirajudeen KN, Mustapha Z, Govindasamy C
    J Physiol Biochem, 2011 Mar;67(1):105-13.
    PMID: 20960085 DOI: 10.1007/s13105-010-0054-2
    To understand their role in epilepsy, the nitric oxide synthetase (NOS), argininosuccinate synthetase (AS), argininosuccinate lyase (AL), glutamine synthetase (GS), and arginase activities, along with the concentration of nitrate/nitrite (NOx), thiobarbituric acid reactive substances (TBARS), and total antioxidant status (TAS), were estimated in different regions of brain in rats subjected to experimental epilepsy induced by subcutaneous administration of kainic acid (KA). The short-term (acute) group animals were killed after 2 h and the long term (chronic) group animals were killed after 5 days of single injection of KA (15 mg/kg body weight). After decapitation of rats, the brain regions were separated and in their homogenates, the concentration of NOx, TBARS and TAS and the activities of NOS, AS, AL, arginase and glutamine synthetase were assayed by colorimetric methods. The results of the study demonstrated the increased activity of NOS and formation of NO in acute and chronic groups epilepsy. The activities of AS and AL were increased and indicate the effective recycling of citrulline to arginine. The activity of glutamine synthetase was decreased in acute and chronic groups of epilepsy compared to control group and indicate the modulation of its activity by NO in epilepsy. The activity of arginase was not changed in acute group; however it was decreased in chronic group and may favor increased production of NO in this condition. The concentration TBARS were increased and TAS decreased in acute and chronic groups of epilepsy and supports the oxidative stress in epilepsy.
    Matched MeSH terms: Cerebellum/metabolism
  3. Fulltext Pathological findings in a mouse model of Japanese encephalitis infected via the footpad
    Fu, Tzeh Long, Ong, Kien Chai, Wong, Kum Thong
    Neurology Asia, 2015;20(4):349-354.
    MyJurnal
    We have developed and characterised a mouse model of Japanese encephalitis virus (JEV) infection via
    footpad inoculation in order to better mimic viral transmission by mosquito bites. Two-week-old and
    5-week-old mice consistently developed signs of infection such as ruffled fur, weight loss, hunchback
    posture, tremors, mask-like facies and occasionally, hindlimb paralysis at 4 days post infection (dpi)
    and 11-13 dpi, respectively. Most of the animals died within 24 to 48 hours following the onset of signs
    of infection, with mortalities of 100% and 33.3% in 2-week-old and 5-week-old mice, respectively.
    Mild meningitis and variable parenchymal inflammation with formation of microglial nodules, focal
    necrosis and neuronophagia, and perivascular cuffing by inflammatory cells were observed in the
    caudate nucleus, putamen, thalamus, cerebral cortex, brainstem, and spinal cord. Viral antigens/RNA
    were demonstrated by immunohistochemisty and in situ hybridization, respectively, in most of these
    areas as well as in the hippocampus and cerebellum, albeit more focally. The pathological findings in
    this mouse model were generally similar to human Japanese encephalitis (JE) and other established JE
    models but perhaps, compared to other JEV mouse models, it demonstrates lethal encephalitic infection
    more consistently. We believe that our mouse model should be useful to study the pathogenesis of JE,
    and for testing anti-viral drugs and vaccines
    Matched MeSH terms: Cerebellum
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