Refractive state, corneal curvature, accommodative range and ocular anatomy of the Asian elephant (Elephas maximus)

The resting refractive state of six mature, female, Asian elephants (Elephas maximus) was determined using streak retinoscopy and neutralizing video retinoscopy. The amplitude of accommodation was also measured by neutralizing video retinoscopy of two animals and the corneal curvatures of three animals was measured by photokeratoscopy. The net spherical refraction was found to be +0.23 D. No difference was observed between cyclopleged and non-cyclopleged eyes (data from three animals), nor was there any difference between right and left eyes. Nine of the twelve eyes refracted had > or = 0.5 D astigmatism. The mean corneal power, as measured by photokeratometry was 21.3 D (SD = 1.8 D). There was a tendency towards with-the-rule corneal astigmatism in our sample (mean value: 1.2 D), though it did not reach statistical significance (P = 0.06). Two elephants were examined using neutralizing video photoretinoscopy. They were able to accommodate through 3 D. Three fixed eyes from three different elephants were obtained for gross and microscopic examination. The mean axial length of the eye was 38.75 mm and the lens had an axial diameter of approx. 10 mm. The posterior sclera was thick (8.0-8.5 mm). Histologically, the cornea was comprised of five distinct layers. A thin, meridionally oriented smooth ciliary muscle was identified. Individual muscle fibers were also observed associated with the posterior trabeculae of the uveal meshwork.

Prostanoid-induced relaxation of precontracted cat ciliary muscle is mediated by EP2 and DP receptors

The pharmacology of prostanoid-induced relaxation of the precontracted cat ciliary smooth muscle was characterized using synthetic prostaglandin (PG) analogues that are selective for specific prostanoid receptors. Relaxation was studied using carbachol to precontract the isolated longitudinal ciliary muscle, followed by application of the PG agonist. Of the compounds studied, PGE2 was the most potent relaxant (concentration that produced 50% of maximum relaxation, 10(-7) mol/l), and its maximal effect in each preparation was used as a standard for comparison. Both PGD2 and PGF2 alpha produced relaxations that were approximately 30- and 100-fold weaker, respectively, than those produced by PGE2. Prostanoids with activity at the EP2 (19-(R)-hydroxy PGE2 and 11-deoxy PGE1) and DP (BW 245C) receptors potently relaxed the ciliary muscle. Other EP receptor subtypes and the TP receptor were not involved as indicated by the lack of relaxant activity of sulprostone (EP3 > EP1), MB 28767 (EP3 > TP), and U-46619 (TP). Although 17-phenyl trinor PGE2 (EP1 and EP3) and PGI2 (IP) had some activity, it occurred at a nonselective dose (10(-4) mol/l). The presence of DP receptors in the cat ciliary muscle was confirmed by using BW A868C, a selective DP-receptor antagonist. This drug (concentration, 1 mumol/l) displaced the relaxant effects of PGD2 but had no effect on the activities of PGE2 and 11-deoxy PGE1. In addition, 17-phenyl trinor PGF2 alpha (FP) was inactive, indicating that the FP receptor was not involved in ciliary muscle relaxation.(ABSTRACT TRUNCATED AT 250 WORDS)

Cytoskeleton in neuroectodermally derived epithelial and muscle cells of the human iris and ciliary body

The cytoskeleton of epithelial and muscle cells of the human iris and ciliary body was analyzed by immunohistochemistry in three morphologically normal formalin-fixed, paraffin-embedded eyes and in 34 eyes containing a uveal melanoma. Both layers of the iris epithelium reacted with monoclonal antibodies (MAb) V9 and Vim 3B4 to vimentin, whereas the ciliary epithelia additionally reacted with MAb CAM 5.2, CK5, KS-B17.2, and CY-90, recognizing cytokeratins 8 and 18. The same cytokeratin MAb labeled the retinal pigment epithelium, which lacked vimentin. The muscle portion of the anterior iris epithelium, which forms the dilator muscle, as well as the sphincter and ciliary muscles, reacted with MAb DE-U-10 to desmin and 1A4 to alpha-smooth muscle actin. The dilator and ciliary muscles also reacted with V9 and Vim 3B4 to vimentin, and some dilator fibers were weakly immunopositive for cytokeratin 8 and 18 with CY-90 and CAM 5.2. The antigenic profile of iris and ciliary epithelia infiltrated by melanoma cells remained unchanged. The intraocular epithelia, which are developmentally related but differ in function, and the intraocular muscles, which differ in origin but are functionally related, have distinct cytoskeletal profiles and may provide insights into the functional significance of intermediate filament expression.

The mammalian iris-ciliary complex affects organization and synthesis of cytoskeletal proteins of organ and tissue cultured lens epithelial cells

A water soluble growth inhibitor was isolated from the mammalian ocular iris-ciliary complex. The molecular weight of this protein is 10 kD or lower as determined by ultrafiltration fractionation. The iris-ciliary (IC) complex water soluble protein(s) significantly inhibits synthesis of lower molecular weight proteins of the epithelial cells of the organ cultured mammalian ocular lens. It was also found that this inhibitory effect of IC is mediated via the structural organization of the lens. Monolayer cultures of the lens epithelial cells exposed to IC did not manifest any inhibition of their protein synthesis. Moreover, these tissue cultured lens epithelial (TCLE) cells showed a significant increase in their protein synthetic activities in response to the presence of IC factors in the culture medium. It is postulated that the IC activity is modulated via either the lens capsule, an extracellular matrix, or due to the specific organization of the intact lens. The specific effects of IC on the cytoskeletal organization and synthesis in the organ cultured lens epithelial (OCLE) and TCLE cells were also examined. Both groups, treated with IC factors, manifested significant alterations in their protein synthetic activities and cytoskeletal architecture. The 3H-leucine incorporation experiments showed that alpha-actin and alpha-tubulin synthesis is partially inhibited by IC factors in OCLE cells but vimentin synthesis is not, whereas in TCLE cells all of them showed increased synthesis in response to IC factors. Turnover rates of these proteins in both OCLE and TCLE cells were also computed. The immunofluorescence and microscopic evaluation of OCLE and TCLE cells exposed to IC factors illustrated significant alteration in the cytoarchitecture of the filaments. We demonstrate that an inhibitor(s) molecule of 10 kD or lower size isolated from IC inhibited protein synthesis of OCLE cells and stimulated protein synthesis in TCLE cells. The IC factor also affects the synthesis and organization of cytoskeletal filaments of both the OCLE and TCLE cells.

[Deterioration of amplitude of the accommodation with age and its possible restoration in the intraocular lens implanted eye]

This study aimed to determine whether pseudophakia which have deteriorated amplitude of accommodation with age, i.e., presbyopia and which received implantation of refractively changeable intraocular lenses after cataract extraction are able to regain accommodative function. According surveys on aging in the literature, functional deterioration of the ciliary muscle and the zonular fiber is not so striking compared to the changes of crystalline lens material and capsule. Consequently the artificially pseudophakic eye can be expected to regain accommodative function when the crystalline lens material could be replaced by an appropriately visco-elastic material before 80 years of age when the crystalline lens capsule still retain its elasticity.

[Possible mechanisms of inositol phosphate-diacylglycerol signalling pathway in the regulation of intraocular pressure]

To clarify the role of the inositol phosphate diacylglycerol (IP/DAG) signalling pathway in the regulation of intraocular pressure (IOP), the effect of tumor promoter phorbol ester (PMA) and Ca ionophore (A23187) on IOP responses was examined in albino rabbits. PMA stimulates protein kinase C (PKC) directly and A23187 elevates intracellular Ca2+ concentration. In this study, the topical application of 10 microM PMA or 15 microM A23187 slightly reduced IOP. However topical application of both 10 microM PMA and 15 microM A23187 significantly reduced IOP. The maximum IOP decrease was 5.0 mmHg. This decrease was inhibited by pretreatment with 0.5 microM staurosporin, a PKC inhibitor. Quantitative changes of inositol 1,4,5-trisphosphate (IP3) and PKC activity in cultured ciliary epithelia (CE), stimulated with several ocular hypotensive agents were also studied. When cultured CE was stimulated with 50 microM carbachol, the PKC activity and IP3 content rapidly increased. When CE was stimulated with 50 microM epinephrine, isoproterenol or timolol, PKC activity did not show any change and IP3 level declined. These studies suggest that the IP/DAG signalling pathway somehow mediates aqueous dynamic changes in ciliary epithelia.

Effect of bicarbonate on intracellular potential of rabbit ciliary epithelium

Extracellular HCO3- hyperpolarizes the intracellular potential and makes the aqueous medium negative with respect to the stromal surface of the rabbit ciliary epithelial syncytium. The bases for these observations have been unclear. We have been studying the bicarbonate-induced hyperpolarization (BIH) with sustained intracellular recordings for periods as long as 1-2 hrs. The BIH was observed [6.0 +/- 0.4 mV (mean +/- SE, N = 22)] even when the external pH was clamped constant by appropriately changing the CO2 tension. External HCO3- was required since aeration with CO2 at low external pH did not replicate the BIH. DIDS [4,4'-diisothiocyano-2,2'-disulfonic acid] did not abolish the effect. The hyperpolarization is unlikely to reflect the pH dependence of K+ channels alone, since the effect was not reduced by either 2 mM Ba2+ alone or 2 mM Ba2+ together with 50-100 microM quinidine. The BIH depends directly or indirectly on external Na+, since the sign of the polarization response was reversed either by replacing Na+ with N-methyl-D-glucamine or by blocking the Na+,K(+)-exchange pump with 50-100 microM ouabain. Replacement of external Cl- with NO3- or application of the Cl(-)channel blocker NPPB [5-nitro-2-(3-phenylpropylamino)-benzoate] depolarized the membrane and reversed the sign of the BIH. The response of the ciliary epithelium to HCO3- is complex and may arise from several mechanisms. We suggest that one important element is an anion channel whose conductance is reduced by bicarbonate and whose reversal potential is indirectly dependent on the operations of the Na+,K(+)-pump and a Cl(-)-linked symport.

[The tension of zonule and aging changes of ciliary bodies]

The zonular tension was studied in thirty fixed autopsy eyes (7 eyes under 30 years old, 15 eyes seventh decade and 8 eyes over 85 years old) by pulling the lens backward, and the surface structure of the ciliary body was studied histopathologically following the removal of zonular fibers. The tension for breaking zonules was 49.1 +/- 8.0 gm in younger age group, and 35.3 +/- 8.2 gm in older age group. The zonules in the younger age group was statistically stronger than those in the older age group (p less than 0.01). This breaking occurred at the region adjacent to the ciliary body in the younger age group, but at the region adjacent to the lens in the older age group. The internal surface of the pars plicata and the anterior pars plana was characterized by regular meridional ridges and grooves in the younger age group but was irregular in older age group. In the older age group, grooves among the ridges were wide. In the posterior pars plana, spine-like structure was observed learning parallel toward the lens along the course of zonular fibers. These ageing changes of zonules and ciliary body may depend on the load for the accommodation.

Microendoscopic observations of the hemodynamics in the rabbit ciliary processes

The in vivo hemodynamics of the ciliary process vasculature in the albino rabbit were studied with an improved technique of intraocular microendoscopy. The spreading pattern and velocity of the dye front has been observed in defined vessel segments following intracarotid injection of Evans Blue. In the anterior portion of the ciliary processes a "thoroughfare channel" (bypass) was found leading from the arteriolar tree directly into the marginal venule bypassing the capillary network of the ciliary processes. This bypass is characterized by a higher blood flow velocity (1.5-3mm/sec) than was found for the capillary network (0.8-1mm/sec). A stoppage of blood flow was observed in the capillary network at 45-50mmHg after step-wise elevation of intraocular pressure (IOP): blood flow was not stopped in the thoroughfare channel until IOP values of 55-60mmHg were reached. Intraarterial administration of vasoconstrictive agents could lead to a complete stoppage of blood flow in the capillary net whereas the marginal route often remained patent.

Age-related loss of ciliary muscle mobility in the rhesus monkey. Role of the choroid

Ciliary muscle topography was studied in rhesus monkey eyes (aged 6 to 29 years) bisected meridionally through cornea and optic nerve head. Half of each eye was incubated in atropine sulfate, the other in pilocarpine hydrochloride, and both were then processed for histologic study. Several ciliary muscle sections from the original cut margin and the middle of the half eyes were traced and compared quantitatively. In sections from the middle, where the attachments of the muscle were presumably intact, the pilocarpine effect on ciliary muscle topography was lost with age. In sections near the cut margin, where some of the posterior attachments were disrupted and the choroid had detached from the sclera, the pilocarpine effect persisted with age. These findings suggest that loss of ciliary muscle movement with age is caused by decreased compliance of its posterior attachment.

Spontaneous miniature hyperpolarizations of presynaptic nerve terminals in the chick ciliary ganglion

Intracellular recordings from presynaptic nerve terminals in the chick ciliary ganglion revealed the presence of spontaneous miniature hyperpolarizations in virtually all (approximately 86%) nerve terminals examined. These spontaneous events appeared as small, brief hyperpolarizations at resting potential and were observed to increase or decrease as the membrane potential was depolarized or hyperpolarized from rest, respectively. The hyperpolarizing potentials were sensitive to blockade by tetraethylammonium and Ba2+, while caffeine increased then abolished these events. The voltage fluctuations were unaffected by tetrodotoxin, low Ca2+ external solution or the synaptic blockers, picrotoxin and strychnine. These spontaneous, transient, miniature hyperpolarizations may be due to the brief and co-ordinated activation of between 15-60 Ca(2+)-dependent K+ channels following the release of Ca2+ from internal stores.

Anteroposterior shift in rigid and soft implants supported by the intraocular capsular bag

We compared the depth of the anterior chamber and the optimal distance refraction in a group of patients with soft and rigid intraocular implants under pilocarpine (maximal ciliary contraction) and cyclopentolate (maximal ciliary relaxation) in order to determine if lens movement might account for the apparent accommodation phenomenon. Lens shifts ranging from 1.5 to 0.02 mm and refractive variations up to 1 D were found. However, the discrepancies between amount of shift and refractive variations suggest that lens movement does not play a relevant role in this phenomenon.

Repetitive firing properties in subpopulations of the chick Edinger Westphal nucleus

The avian Edinger Westphal nucleus, through the ciliary ganglion, controls accommodation, iris constriction, and blood flow through the choroid. In live brainstem slices, the nucleus is easily identifiable as an olive-shaped cluster of neurons dorsal to the oculomotor nerve and nucleus. Intracellular recordings from neurons in the nucleus identified two classes of responses to sustained (300 to 500 ms) injections of depolarizing current. One set of cells fired action potentials for the duration of the pulse while a second set of cells fired action potentials only transiently, during the first 50 to 100 ms, after which they remained silent regardless of the size of the depolarization. Intracellular recordings followed by injections of the fluorescent dye lucifer yellow revealed that repetitively firing cells were located in the lateral half of the nucleus while non-repetitively or transiently firing cells were located in the medial half. These locations correspond to different Edinger Westphal subdivisions which have distinct inputs and target populations. The varying firing patterns are discussed with reference to the known functions of the subdivisions in which they occur. Replacement of calcium by magnesium in the extracellular medium had no effect on the number of action potentials fired by non-repetitively firing cells, suggesting that a calcium-activated potassium current is not responsible for suppressing repetitive firing in these cells. In contrast, in repetitively firing cells removal of extracellular calcium increased the frequency of action potential discharge and decreased the amplitude of afterhyperpolarizations following single action potentials. Addition of cadmium to the bath medium had similar effects.(ABSTRACT TRUNCATED AT 250 WORDS)

Electrogenic sodium-bicarbonate cotransport in human ciliary muscle cells

We investigated membrane voltage and intracellular pH (pHi) in cultured human ciliary muscle cells using a cell line (H7CM) and primary-cultured human ciliary muscle cells. 1) Resting potential was 58.9 +/- 1.0 mV in H7CM cells and 61.9 +/- 1.4 mV in primary cultures. The following data are from H7CM cells, but results from primary cultures were basically similar. 2) In HCO3(-)-CO2-buffered solution, removal of extracellular sodium resulted in a depolarization [change in membrane resistance (delta V) = 31.3 +/- 2.8 mV] that was less marked in the absence of HCO3(-)-CO2 (delta V = 0.5 +/- 2.6 mV) and reduced by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS) (delta V = 19.3 +/- 1.9 mV). 3) Removal of extracellular HCO3(-)-CO2 led to a depolarization (delta V = 13.2 +/- 0.8 mV) that was abolished in the absence of extracellular sodium and inhibited by DIDS. 4) Intracellular alkalinization led to a depolarization (delta V = 24.7 +/- 2.3 mV), and intracellular acidification resulted in a hyperpolarization (delta V = 9.4 +/- 1.1 mV) that was inhibited by DIDS and dependent on extracellular HCO3(-)-CO2 and sodium. 5) pHi backregulation after an acid load occurred in both the presence and absence of extracellular bicarbonate but not in the absence of extracellular sodium. Our data are consistent with an electrogenic Na(+)-HCO3- cotransport in human ciliary muscle cells, which is activated by intracellular acidification.

Whole cell patch clamping of ciliary epithelial cells during anisosmotic swelling

Anisosmotic cell swelling triggers a regulatory volume decrease (RVD) in cell lines derived from human nonpigmented ciliary epithelium. Measurements of cell volume have indicated that the RVD reflects activation of K+ and/or Cl- channels. We have begun to characterize the putative channels by whole cell patch clamping. The results obtained by altering the external K+ and Cl- concentrations and by adding 20-50 microM quinidine or 1 mM Ba2+ indicate that K+ conductances contribute substantially and Cl- conductances contribute very little to the total membrane conductance (GT) under baseline isotonic conditions. Reducing the external osmolality by 20-50% reversibly and reproducibly increased GT by an order of magnitude. Data obtained from ion substitutions and the channel blockers quinidine and 5-nitro-2-(3-phenylpropylamino)-benzoate indicate that most of the hypotonicity-induced conductance reflects stationary Cl(-)-channel activity. The contribution of new K(+)-channel activity was small at intracellular free Ca2+ concentrations of 10 or 200 nM. We conclude that the RVD triggered by bath hypotonicity primarily reflects increased Cl(-)-channel activity.

Involvement of prejunctional alpha 2-adrenoceptor in bovine ciliary muscle movement

The effects of adrenergic agents on bovine ciliary muscle were studied in vitro. Norepinephrine, phenylephrine, or isoproterenol did not affect the muscle tone. High concentrations of guanethidine (10(-5) M) partly inhibited the nerve-mediated contractions of the muscle. The nerve-mediated contractions also were inhibited in the following order: norepinephrine > epinephrine >> isoproterenol. The inhibition was blocked by yohimbine or phentolamine, but not by optimum concentrations of prazosin, moxisylyte, propranolol, and carteolol. Usual concentrations of phosphodiesterase inhibitors markedly inhibited the nerve-mediated and carbachol-induced contractions. These results suggest that an adrenergic alpha 2 receptor located at the nerve terminals inhibits the contraction of cholinergically innervated ciliary muscle. Adrenergic innervation seems to play an inhibitory role in the muscle tissue when the muscle tone is elevated.

Localization of alkaline phosphatase on basolateral plasma membrane of normal and regenerating retinal pigment epithelium. A cytochemical study in rabbits

Ultrastructural cytochemistry was used to analyze the polarized distribution of alkaline phosphatase (AP) on the plasma membranes of normal and regenerating retinal pigment epithelium (RPE) and the ciliary body epithelium in rabbits. The AP activity was concentrated on the basolateral plasma membrane in normal RPE. In regenerating RPE (after intravenous administration of sodium iodate to damage the RPE), there was a differential expression of AP activity according to the site on the regenerating epithelial sheet. At the edge of the sheet, where cells were undifferentiated and immature (ie, without the polarized distribution of basolateral and apical plasma membrane specializations seen in normal RPE), no plasma membrane AP activity was observed. The AP activity was reexpressed more proximal in the regenerating sheet. It was first evident where contiguous cells formed junctional complexes and cytologic polarization again became apparent. New AP activity was restricted to the basolateral plasma membrane. Eventually, the polarized distribution of AP activity seen in normal RPE was reestablished. In the ciliary body, AP activity was localized to the basolateral plasma membranes of the outer, nonpigmented epithelial cells. It was concluded (1) that cytochemical activity for nonspecific AP is concentrated on the basolateral plasma membrane domain of normal RPE and the normal pattern of AP activity is lost initially and then reexpressed.

Effects of adrenergic agents on transepithelial electrical measurements across the isolated iris-ciliary body

Transmembrane electrical measurements were performed on the isolated rabbit iris-ciliary body to study direct effects of adrenergic drugs on the ciliary epithelium. Alpha-adrenergic agonists (epinephrine, norepinephrine, or phenylephrine) lowered the short-circuit current (SCC) in a dose-dependent fashion relative to which chamber side the drug was added: simultaneous addition to both chambers greater than blood side only greater than aqueous side only. Pretreatment (5 x 10(-5) M) with the non-selective beta-adrenergic antagonist timolol had no effect while the non-selective alpha-adrenergic antagonist, phentolamine, completely prevented the alpha agonist-induced decrease in SCC. The alpha-adrenergic response was mediated by the alpha 1 subtype since prazosin, but not yohimbine, blocked the induced reduction in SCC. The beta-adrenergic agonist isoproterenol caused a dose-dependent decrease in the SCC. The decrease was similar when the drug was added to only the blood side or to both sides of the chamber. Addition to only the aqueous chamber had no effect. Pretreatment with beta-adrenergic antagonists blocked the isoproterenol response: non-selective = selective beta 2 greater than selective beta 1. The isoproterenol-induced decrease in SCC was also blocked by non-selective alpha-adrenergic antagonists. The response was mediated by the alpha 1 subtype since prazosin, but not yohimbine, blocked the isoproterenol response. This suggests that isoproterenol interacted with the alpha 1-adrenergic sensitive pathway in the rabbit ciliary process.

[Attempt to the measurement of the tension of zonular fibers--influence to the lens suspensory apparatus when the lens was vertically displaced by pushing posteriorly]

A new fine pressure gauge was developed to quantitate zonular tension of the albino rabbit eye. This apparatus consists of a plastic rod to press the crystalline lens, transducer, amplifier, and recorder. The diameter of this plastic rod is 8 mm. The cornea and the iris of enucleated eyes were removed by excision in the limbus. Afterwards the lens were vertically pressed by the plastic rod of the fine pressure transducer. It was necessary to disrupt a part of zonules by approximately 106 g (2.11 g/mm2). This result was equivalent to 155 mmHg. The morphological changes of the anterior part of eye globe which consists of lens, zonules, and ciliary process were investigated using scanning electron microscopy. In the control eyes, the zonular fibers mostly originated from the superior or lateral ciliary processes and inserted straight into the equatorial region of the lens. In comparison with control eyes, the zonular fibers which were pressed by the plastic rod were almost absent within 1/6 of a circle. This disruption occurred at the region adjacent to the ciliary e process, while the region of the insertion to the lens demonstrated a normal appearance. In the unaffected area zonules were well-preserved morphologically, apart from splits of the bundles of zonules. The present study indicated that zonular fibers could resist a stretching press up to approximately 8 times normal intraocular pressure.

Identification of a low-threshold T-type calcium channel in bovine ciliary epithelial cells

The characteristics of an inward current in single pigmented cells from the bovine ciliary body were examined using the whole cell recording technique. The inward current appeared to activate at potentials 30 mV positive to a holding potential of -80 mV, although activation studies revealed that from more negative holding potentials the current activated at about -75 mV, peaked at around -10 mV, and reversed at a potential of +40 mV. The current was small, peak value -72 +/- 24 pA (n = 13), and exhibited rapid activation and slower inactivation kinetics, both processes being voltage sensitive. Inactivation occurred at holding potentials more positive than -120 mV and was complete at -50 mV with a half-maximal membrane potential of -88 mV. The overlap of the inactivation and activation curves between -75 and -50 mV means that, in the steady state, entry of calcium will be greatest in this range and calcium will thus enter the cell at the resting membrane potential. The current was resistant to tetrodotoxin and nifedipine. It was partially blocked by Cd2+ and almost completely blocked by Ni2+. It is concluded that this current is a low-threshold T-type calcium current.

Evidence for protein kinase C modulation of the ciliary muscle response to carbachol and desensitization

The role of protein kinase C (PKC) in the desensitization of muscarinic receptor-mediated responses in bovine ciliary muscle was examined. Exposure of the bovine ciliary muscle to phorbol esters, used to activate PKC, resulted in antagonism of muscarinic receptor-mediated contraction. On the other hand, staurosporine, a known PKC inhibitor, caused a significant potentiation of the contractile effect induced by carbachol. Staurosporine reduced the desensitization induced by repeated additions of carbachol and completely suppressed that induced by phorbol esters. The results also indicate that desensitization mediated by phorbol esters as well as that mediated by muscarinic receptor agonists is heterologous.

Endothelin-evoked contractions in bovine ciliary muscle and trabecular meshwork: interaction with calcium, nifedipine and nickel

In the present study, we compared contractile responses of isolated bovine ciliary muscle and trabecular meshwork strips to endothelin-1 and carbachol. 1. Endothelin-1 is a potent contracting agent for ciliary muscle and trabecular meshwork. The EC50 was 5 x 10(-9) mol/l for both tissues. The maximal force evoked by endothelin was 73% of the maximal carbachol response in trabecular meshwork and 52% in ciliary muscle. 2. Carbachol contracted both tissues with an EC50 of 2 x 10(-7) mol/l. 3. In ciliary muscle, the tension was completely dependent on extracellular calcium. 4. In trabecular meshwork, 23 +/- 4% of the endothelin- and 42 +/- 10% of the carbachol-induced force response remained after removal of extracellular calcium. 5. Nifedipine (10(-5) mol/l) had only a slight relaxing effect in both tissues. 6. Nickel (10(3) mol/l) inhibited the development of force in both tissues. The relaxation induced by nickel was more pronounced in endothelin- than in carbachol-induced contractions. Different intracellular mechanisms mediating the action of endothelin and carbachol can be described: i) a calcium- and a nickel-sensitive pathway in both tissues and ii) an additional mechanism independent of external calcium in trabecular meshwork. These results indicate functional differences between the contractile region of trabecular meshwork and ciliary muscle. Endothelin may participate in accommodation and regulation of the intraocular pressure.

Formation and release of vesicles from the basal surfaces of rat eye non-pigmented ciliary epithelial cells: a novel secretory mechanism?

When rat ciliary body is processed by high pressure freezing and freeze substitution, numerous membrane-bound vesicle profiles are seen in the vitreous associated with the pars plana and in the valleys between the ciliary processes. They consist of a homogeneously distributed fine granular matrix and varying numbers of ribosome-like structures. The mechanism by which these vesicles are secreted appears to follow an apocrine-type pattern, albeit at the basal cell surface. Matrix material accumulates between the basal plasma membrane of non-pigmented ciliary epithelial cells and a cortical layer of cytoskeletal components; the blebs thus formed protrude through a discontinuity in the basal lamina and, by a progressive narrowing of the neck region, are eventually pinched off, giving rise to free vesicles. Under conventional aqueous chemical fixation conditions, most of these vesicles are washed away or their contents solubilized and extracted, which accounts for their not having been identified hitherto as genuine morphological structures. They are nonetheless apparent, albeit in reduced numbers and mostly empty. Such vesicles are also observed in tissue processed according to several other chemical fixation techniques, namely, conventional fixation in the presence of the cationic dye ruthenium hexamine trichloride, simultaneous glutaraldehyde/osmium tetroxide fixation, and microwave fixation. In the latter instance, comparable vesicle preservation to that obtained by high pressure freezing/freeze substitution may be achieved if fixation is followed by cryoprotection, plunge freezing, and freeze substitution instead of conventional post-fixation and dehydration procedures.

The relationship between the stretching capability of the anterior capsule and zonules

The stretching capability of the zonules was studied in 40 human eyes obtained postmortem from 27 patients. A continuous circular capsulorhexis (CCC) (2.2-6.8 mm) was performed, and the lenses were removed by either phacoemulsification (26 eyes) or planned extracapsular cataract extraction (ECCE) (14 eyes). Maximal zonular stretch was calculated as the difference in distance between the ciliary processes and the zonular insertion at rest and after maximal stretch. This zonular stretch test showed that zonules can stretch to a mean distance of 3.82 mm before rupturing. Capsular elasticity was measured in 35 of the eyes by gradually opening a modified caliper until the capsular opening was torn. The ratio between the circumference at rupture and the circumference at rest was used as an index of capsular elasticity. Circumference of the intact capsulorhexis could be enlarged an additional 62% before a radial tear occurred. In most cases, no significant correlation was seen between the capsular and zonular capability to stretch. Maximal zonular stretch decreased significantly with age by approximately 0.5 mm for every 5 yr, whereas capsular elasticity did not show a significant correlation with age. Two eyes with pseudoexfoliation had relatively friable zonules but the capsular elasticity was within normal limits. Patient age is probably the best indicator of the stretching capability of the zonules.

Detection and characterization of Ca(2+)-activated K+ channels in transformed cells of human non-pigmented ciliary epithelium

Cell-attached and excised inside-out membrane patches were used to study single channel currents in a cell line derived from human non-pigmented ciliary epithelium. Most of the patches contained a Ca(2+)-dependent K+ channel with large unitary conductance (200 pS in symmetrical K+ solutions). Single channel current in cell-attached patches exposed to high K+ solution in the pipette showed a null potential of -36 mV. This value, which should yield an approximate estimation of cell membrane potential, was reversibly increased by -30 to -40 mV in the presence of Ca2+ ionophores. Tetraethylammonium up to 10 mM applied at the membrane cytoplasmic face had no effect on the channel. Addition of 1 mM BaCl2 to excised patches caused a voltage-dependent blockade of the channel. In the presence of barium the unit currents were not altered, but the channel remained closed for long periods of time and the open state probability decreased with depolarization. The possibility that this channel participates in regulation of transepithelial ciliary body secretion is discussed.