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Query: EC:3.1.1.7 (
acetylcholinesterase
)
28,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Non-selective
acetylcholinesterase
(
AChE
) inhibitors are known hypotensive agents. The purpose of the present investigation was carried out to ascertain whether rivastigmine, a selective carbamate-type inhibitor of
AChE
, which inhibits selectively an isoform of this enzyme found almost exclusively in the central nervous system, is able to depress the
intraocular pressure
(
IOP
) in normotensive rabbits.
IOP
was monitored with a TonoPen XL in conscious adult rabbits before and hourly up to 8 hr after administration of the drug. Baseline measurements without treatment and after one single topical application of rivastigmine [1% (n=8); 2% (n=4); and 5% (n=6)] to the right eye and of the vehicle alone to the left one were performed. Rivastigmine reduced the
IOP
of treated eyes significantly (p<0.05) in a dose-independent manner. Maximal effects of 23.2% (5% rivastigmine), 19.6% (2% rivastigmine) and 15.2% (1% rivastigmine) were achieved 1, 3 and 5 hr after application of the drug. A non-significant reduction of
IOP
in the contralateral eye was also observed. Rabbits evidenced no signs of discomfort after administration of rivastigmine. No conjunctival discharge or other signs of drug related local toxicity were found. Rivastigmine, a selective antagonist of
AChE
, lowers
IOP
significantly and may thus be of potential use in glaucoma therapy.
...
PMID:Topical rivastigmine, a selective acetylcholinesterase inhibitor, lowers intraocular pressure in rabbits. 1067 28
For some time the medical treatment of glaucoma has consisted of topical beta-blockers, adrenergic agents, miotics and oral carbonic anhydrase inhibitors (CAIs). However, the therapeutic arsenal available for the medical treatment of glaucoma has recently extended with new classes of ocular hypotensive agents i.e. prostaglandins, local CAIs and alpha2-adrenergic agents. Beta-blockers are still the mainstay in glaucoma treatment and are first line drugs. However, even if they are applied once daily, as with timolol in gel forming solution and levobunolol, the possible cardiopulmonary adverse effects of beta-blockers remain a cause for concern. When monotherapy with beta-blockers is ineffective in reducing
intraocular pressure
(
IOP
) or is hampered by adverse effects, a change of monotherapy to prostaglandins, local CAIs, alpha2-adrenergic agonists (brimonidine) or to dipivalyl epinephrine is advised. Prostaglandins, local CAIs and alpha2-adrenergic agonists, such as brimonidine, may in time become first line drugs because they reduce
IOP
effectively and until now systemic adverse effects have rarely been reported with these agents. The development of a pro-drug of either a local CAI or an alpha2-adrenergic agonist with a sustained and continuous effect on
IOP
level, which could be applied once a day is suggested. Because of these new developments, miotics, i.e. pilocarpine and carbachol, are recommended as second or third line drugs. The
cholinesterase
inhibitors are considered third line drugs as better agents with fewer local and systemic adverse effects have become available. Oral CAIs may be used temporarily in patients with elevated IOPs e.g. postsurgery or post-laser, or continuously in patients with glaucoma resistant to other treatment. Combining ocular hypotensive drugs is indicated when the target pressure for an individual patient cannot be reached with monotherapy. Combination therapy of beta-blockers is additive with prostaglandins, topical CAIs and miotics. Prostaglandins such as latanoprost can be combined with beta-blockers, adrenergic agents, local CAIs and miotics. Combinations with brimonidine or local CAIs need further investigation. Treatment of glaucoma with the new ocular hypotensive agents, either in monotherapy or combination therapy, may provide lower IOPs and delay or postpone the need for surgery.
...
PMID:Pharmacological therapy for glaucoma: a review. 1077 28
We have studied the effects of various angiotensin-converting enzyme (ACE) inhibitors on
intraocular pressure
(
IOP
) of rabbits with experimentally induced ocular hypertension and their mechanism of action. Acute ocular hypertension was induced by infusion of 5% glucose (15 ml/kg) through marginal ear vein, whereas chronic glaucoma was induced by injection of alpha-chymotrypsin into the posterior chamber of the eye.
IOP
was measured by tonometer. All ACE inhibitors were instilled topically in the eye in a sterile solution. The effect of ACE inhibitors also was studied on serum
cholinesterase
(true and pseudo) and the enzyme ACE in vitro. Enalaprilat, ramiprilat, and fosinopril produced a time-dependent decrease of
IOP
in both acute and chronic models of ocular hypertension in rabbits. The decrease in
IOP
was observed for >4 h, and the extent of decrease was comparable to that with both pilocarpine and betaxolol. Prodrugs enalapril and ramipril failed to produced any change in
IOP
. Losartan also produced a significant decrease in
IOP
in the chronic model of ocular hypertension in rabbits. All the three ACE inhibitors were found to inhibit ACE activity in aqueous humor. The enzyme
cholinesterase
was found to be inhibited by enalaprilat, ramiprilat, and fosinopril. However, atropine did not alter the
IOP
-lowering effect of enalaprilat in rabbits. Indomethacin pretreatment produced slight but significant inhibition of the
IOP
-lowering effect of enalaprilat in rabbits. Our data suggest that ACE inhibitors enalaprilat, ramiprilat, and fosinopril produce a significant ocular hypotensive effect in acute and chronic models of ocular hypertension in rabbits. Inhibition of ACE in aqueous humor, and in ocular tissues, resulting in reduced angiotensin II formation, could be one of the major mechanisms responsible for the
IOP
reduction by ACE inhibitors in rabbits.
...
PMID:Oculohypotensive effect of angiotensin-converting enzyme inhibitors in acute and chronic models of glaucoma. 1094 57
Neurospecific
acetylcholinesterase
inhibitors have been shown to lower
intraocular pressure
(
IOP
) in normal rabbits and might have additional neuroprotective effects. This study was set out to explore and compare the toxicity of two selective
acetylcholinesterase
inhibitors, rivastigmine and donepezil, on two standardized cell lines of epithelial origin. Chang and Vero cells were incubated with various concentrations of rivastigmine or donepezil. Acute toxicity (4 h) was assessed by monitoring the permeability of cells to propidium iodide. Chronic toxicity (7 days) was determined by monitoring the effect of the two drugs on esterase activity and cell proliferation. The viability of cells was also assessed morphologically by microscopic inspection. Signs of acute toxicity became manifest at a rivastigmine concentration of 50 mg/ml in both Chang and Vero cells. Indications of chronic toxicity became obvious at concentrations of as low as 1 x 10(-5) mg/ml. In contrast, degenerative morphological changes became manifest only at a concentration of as high as 1 mg/ml. In donepezil-treated cells, acute toxicity was not observed in the concentration range tested, whereas chronic toxicity was detected at 1 x 10(-1) mg/ml in both Chang and Vero cells, a concentration at which degenerative morphological changes became evident as well. In contrast to rivastigmine, donepezil elicited no signs of acute or chronic toxicity in either Chang or Vero cells at the
IOP
-lowering concentration of 1 x 10(-4) mg/ml. At this dose, the drug is therefore unlikely to evoke deleterious effects on ocular surface tissues in the clinical setting.
...
PMID:In vitro toxicity of rivastigmine and donepezil in cells of epithelial origin. 1191 13
Donepezil, a selective
acetylcholinesterase
(
AChE
) inhibitor, has been shown to reduce
intraocular pressure
(
IOP
) in ocular normotensive rabbit eyes. The aim of this investigation was to evaluate the effect of oral donepezil on
IOP
and pupil diameter after mid-term oral treatment in normotensive persons. Thirty-two newly diagnosed Alzheimer patients with normal
IOP
and no further antiglaucomatous treatment were included in the study.
IOP
and pupil diameter were evaluated before and 4 weeks after daily intake of 5 mg donepezil.
IOP
and pupil diameter were significantly lower/smaller after 4 weeks of treatment. The mean
IOP
of all 63 eyes was 14.1 mmHg before and 12.8 mmHg after treatment (8.8% reduction). Mean pupil diameter constricted from 3.9 to 3.6 mm (-7.4%). These findings show that donepezil, and, possibly, other selective
AChE
inhibitors, can potentially be used to treat glaucoma. They are also known to have neuroprotective effects in Alzheimer's, and, therefore, might have an additional therapeutic benefit.
...
PMID:Effect of oral donepezil on intraocular pressure in normotensive Alzheimer patients. 1650 77
We studied the effect of perindopril (1%) on
intraocular pressure
(
IOP
) and compared it with the effect of pilocarpine, a therapeutic agent used in experimentally induced acute and chronic models of glaucoma in rabbits. Acute glaucoma was induced by intravenous administration of 5% glucose. Pretreatment with topical perindopril (1%) and pilocarpine (1%) prevented acute rise in
IOP
induced by intravenous administration of 5% glucose. For inducing chronic ocular hypertension in rabbits, 50 units of freshly prepared alpha-chymotrypsin in 0.1 mL of sterile saline was injected in the posterior chamber of the eye. Perindopril (1%) (35 +/- 1.38 mm Hg to 22.45 +/- 1.42 mm Hg) and pilocarpine (1%) (34.4 +/- 0.81 mm Hg to 20.15 +/- 0.69 mm Hg) produced a significant fall in
IOP
in these rabbits; pretreatment with indomethacin (prostaglandin synthesis inhibitor) did not affect the
IOP
-lowering action of perindopril (1%). Perindopril (2.71 x 10(-7) mol/L) and neostigmine (1.49 x 10(-7) mol/L) inhibited
true cholinesterase
and pseudocholinesterase enzyme activity in blood. The
cholinesterase
enzyme inhibition by perindopril was comparable with that by neostigmine. In conclusion, our data suggest that perindopril reduced
IOP
in experimentally induced acute and chronic glaucoma in rabbits. One of the possible mechanisms of perindopril, apart from the inhibition of angiotensin-converting enzyme, may be inhibition of the enzyme
cholinesterase
.
...
PMID:Oculohypotensive effect of perindopril in acute and chronic models of glaucoma in rabbits. 2055 29
Glaucoma is the leading cause of irreversible blindness worldwide. Loss of vision due to glaucoma is caused by the selective death of retinal ganglion cells (RGCs). Treatments for glaucoma, limited to drugs or surgery to lower
intraocular pressure
(
IOP
), are insufficient. Therefore, a pressing medical need exists for more effective therapies to prevent vision loss in glaucoma patients. In this in vivo study, we demonstrate that systemic administration of galantamine, an
acetylcholinesterase
inhibitor, promotes protection of RGC soma and axons in a rat glaucoma model. Functional deficits caused by high
IOP
, assessed by recording visual evoked potentials from the superior colliculus, were improved by galantamine. These effects were not related to a reduction in
IOP
because galantamine did not change the pressure in glaucomatous eyes and it promoted neuronal survival after optic nerve axotomy, a pressure-independent model of RGC death. Importantly, we demonstrate that galantamine-induced ganglion cell survival occurred by activation of types M1 and M4 muscarinic acetylcholine receptors, while nicotinic receptors were not involved. These data provide the first evidence of the clinical potential of galantamine as neuroprotectant for glaucoma and other optic neuropathies, and identify muscarinic receptors as potential therapeutic targets for preventing vision loss in these blinding diseases.
...
PMID:Structural and functional neuroprotection in glaucoma: role of galantamine-mediated activation of muscarinic acetylcholine receptors. 2136 35
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