Articles: oligonucleotides.
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Phospholipase A2 (PLA2) enzymes that regulate the release of arachidonic acid from cell membrane phospholipids represent a crucial rate-limiting step for the prostaglandin biosynthetic pathway. The aim of this study was to determine the mechanism of action and effects of type II PLA2 antisense oligonucleotides on type II PLA2 mRNA relative abundance, and the release of PLA2 enzymatic activity and prostaglandin F2alpha (PGF2alpha) in vitro. A human placental explant system was used to evaluate the effects of the type II PLA2 specific antisense oligonucleotides A (5'-GGGTGGGTATAGAAGGGCTCC-3', complementary to the base sequence 697-717 of the type II PLA2 gene) and B (5'-TTTTTGATTTGCTAATTGCTT-3', complementary to the base sequence 821-841 of the type II PLA2 gene). ⋯ Compared with control, the release of PLA2 activity and PGF2alpha was significantly reduced over the 24-h period by treatment with both antisense oligonucleotides (P< 0.05). At this concentration, type II PLA2 mRNA abundance was also significantly reduced by both antisense oligonucleotides A and B (P< 0.05). This data demonstrates the efficacy of antisense oligonucleotide inhibition of secretory PLA2 (sPLA2) expression and activity, and the contribution of sPLA2 to placental prostaglandin production.
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Comparative Study
Protection against ischemia/reperfusion injury and myocardial dysfunction by antisense-oligodeoxynucleotide directed at angiotensin-converting enzyme mRNA.
Angiotensin-converting enzyme (ACE) activity in the myocardium and angiotensin-II (Ang-II) levels in plasma increase after myocardial ischemia, which lead to exacerbation of myocardial injury and cardiac dysfunction. We examined the protective role of novel antisense-oligodeoxynucleotide (AS-ODN) directed at ACE mRNA in myocardial ischemic injury. Sprague-Dawley rats were treated with ACE-AS-ODN (200 microg per rat, n = 8, i.v.) or inverted-ODN (IN-ODN, 200 microg per rat, n = 8, i.v.), given with 600 microg per rat of liposome DOTAP/DOPE. ⋯ ACE protein expression (western blot) was decreased in the hearts of the AS-ODN-treated group, but not in IN-ODN-treated rat hearts. In contrast, ACE protein expression was significantly increased in captopril-treated rat hearts. These observations suggest that AS-ODN directed at ACE mRNA can ameliorate myocardial dysfunction and injury after ischemia/reperfusion, and its use is associated with decreased expression of ACE protein in the ischemic myocardium.
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Bcl-2 expression is up-regulated in prostate cancer cells after androgen ablation and associated with development of androgen independence and chemoresistance. We recently reported that antisense Bcl-2 oligodeoxynucleotides (ODNs) delay progression to androgen independence in the androgen-dependent (AD) human LNCaP prostate tumor model. The objectives in this study were to determine whether antisense human Bcl-2 ODN enhances chemosensitivity of paclitaxel and whether combined antisense Bcl-2 ODN and paclitaxel further delays time to androgen-independent (AI) progression in the LNCaP tumor model. ⋯ By 15 weeks post castration, tumor volume in mice treated with antisense Bcl-2 ODN alone or mismatch control ODN plus paclitaxel was >3-fold higher than in mice treated with combined antisense Bcl-2 ODN and paclitaxel. Mean serum prostate-specific antigen levels returned to or were above precastration levels by 11 weeks post castration in mice treated with antisense Bcl-2 ODN alone or mismatch control ODN plus paclitaxel but remained 90% below the pre-castration level in mice treated with combined antisense Bcl-2 ODN and paclitaxel. These findings identify combined antisense Bcl-2 and paclitaxel as a potentially new therapeutic strategy for advanced prostate cancer by enhancing paclitaxel chemosensitivity and delaying progression of hormone-refractory prostate cancer.
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Studies suggest that acute and chronic opioids can regulate the cAMP-dependent protein kinase (PKA) signaling pathway and that changes in this pathway may be involved in opioid tolerance. In the present study, we examined the role of cAMP-PKA on mu-opioid receptor downregulation and tolerance in mice. Mice were injected intracerebroventricular (i.c.v.) and intrathecal (i.t.) once a day with an antisense oligodeoxynucleotide directed at the mRNA for the alpha catalytic subunit of mouse PKA. ⋯ The mismatch oligodeoxynucleotide had no effect on any measure. These results suggest that PKA has a limited role in opioid agonist-induced receptor downregulation. However, the partial block of tolerance for the high infusion dose of etorphine and the complete block of tolerance for morphine and the low infusion dose of etorphine suggests that PKA may play a critical role in tolerance that is "receptor-regulation-independent."
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The present studies assessed the role of G(zalpha) and G(oalpha) in spinal alpha(2) adrenergic receptor agonist-induced antinociception, as well as in antinociceptive synergism between spinal morphine and clonidine. Mice were pretreated with a single intrathecal (i.t.) injection of artificial cerebrospinal fluid (ACSF), antisense oligodeoxynucleotide(s) (ODN) directed against G(zalpha) or G(oalpha), or nonsense ODN. After 48 h, the antinociceptive effects expressed as per cent maximal possible effect (% MPE) of either i.t. morphine alone, clonidine alone or coadministered morphine plus clonidine, were evaluated in the tail flick test. ⋯ Tyr-D-Ala-Gly-N-Me-Phe-Gly-ol (DAMGO)- (mu opioid receptor agonist) and U50-488 (kappa opioid receptor agonist) -induced antinociception. Pretreatment with antisense ODN to G(oalpha) attenuated both morphine and clonidine induced antinociception and did not affect synergism between the agonists. These results suggest that spinal G(o)alpha mediates antinociception produced by both clonidine and morphine while G(zalpha) mediates alpha(2) adrenergic and delta opioid receptor mediated antinociception, but not antinociception produced by mu or kappa opioid agonists.