Beta-blockers and mechanical dyssynchrony in heart failure assessed by radionuclide ventriculography.

BACKGROUND: Radionuclide ventriculography (RNVG) can be used to quantify mechanical dyssynchrony and may be a valuable adjunct in the assessment of heart failure with reduced ejection fraction (HFrEF). The study aims to investigate the effect of beta-blockers on mechanical dyssynchrony using novel RNVG phase parameters. METHODS: A retrospective study was carried out in a group of 98 patients with HFrEF. LVEF and dyssynchrony were assessed pre and post beta-blockade. Dyssynchrony was assessed using synchrony, entropy, phase standard deviation, approximate entropy, and sample entropy from planar RNVG phase images. Subgroups split by ischemic etiology were also investigated. RESULTS: An improvement in dyssynchrony and LVEF was measured six months post beta-blockade for both ischemic and non-ischemic groups. CONCLUSIONS: A significant improvement in dyssynchrony and LVEF was measured post beta-blockade using novel measures of dyssynchrony.

Radionuclide ventriculography phase analysis for risk stratification of patients undergoing cardiotoxic cancer therapy.

BACKGROUND: Accurate diagnostic tools to identify patients at risk of cancer therapy-related cardiac dysfunction (CTRCD) are critical. For patients undergoing cardiotoxic cancer therapy, ejection fraction assessment using radionuclide ventriculography (RNVG) is commonly used for serial assessment of left ventricular (LV) function. METHODS: In this retrospective study, approximate entropy (ApEn), synchrony, entropy, and standard deviation from the phase histogram (phase SD) were investigated as potential early markers of LV dysfunction to predict CTRCD. These phase parameters were calculated from the baseline RNVG phase image for 177 breast cancer patients before commencing cardiotoxic therapy. RESULTS: Of the 177 patients, 11 had a decline in left ventricular ejection fraction (LVEF) of over 10% to an LVEF below 50% after treatment had commenced. This patient group had a significantly higher ApEn at baseline to those who maintained a normal LVEF throughout treatment. Of the parameters investigated, ApEn was superior for predicting the risk of CTRCD. Combining ApEn with the baseline LVEF further improved the discrimination between the groups. CONCLUSIONS: The results suggest that RNVG phase analysis using approximate entropy may aid in the detection of sub-clinical LV contraction abnormalities, not detectable by baseline LVEF measurement, predicting a subsequent decline in LVEF.

Indoor PM2.5, VOCs and asthma outcomes: A systematic review in adults and their home environments.

INTRODUCTION: As the amount of time people spend indoors increases globally, exposure to indoor air pollutants has become an important public health concern. Asthma is a complex disease caused and/or exacerbated by increased exposure to diverse chemical, physical and biological exposures from multiple indoor and outdoor sources. This review aims to investigate the relationship between increased indoor PM and VOC concentrations (i.e. objectively measured) and the risk of adult asthma in higher-income countries. METHODS: Eleven databases were systematically searched on the February 1, 2019 and again on the February 2, 2020. Articles were limited to those published since 1990. Reference lists were independently screened by three reviewers and authors were contacted to identify relevant articles. Backwards and forward citation chasing was used to identify further studies. Data were extracted from included studies meeting our eligibility criteria by three reviewers and assessed for quality using the Newcastle-Ottawa scale designed for case-control and cohort studies. RESULTS: Twelve studies were included in a narrative synthesis. We found insufficient evidence to determine the effect of PM2.5 on asthma in the indoor home environment. However, there was strong evidence to suggest that VOCs, especially aromatic compounds, and aliphatic compounds, were associated with increased asthma symptoms. DISCUSSION & CONCLUSION: Although no single exposure appears to be responsible for the development of asthma or its associated symptoms, the use of everyday products may be associated with increased asthma symptoms. To prevent poor health outcomes among the general population, health professionals and industry must make a concerted effort to better inform the general population of the importance of appropriate use of and storage of chemicals within the home as well as better health messaging on product labelling.

Randomized, open-label, 5-way crossover study to evaluate the pharmacokinetic/pharmacodynamic interaction between furosemide and the non-steroidal anti-inflammatory drugs diclofenac and ibuprofen in healthy volunteers.

OBJECTIVE: Nonsteroidal anti-inflammatory drugs (NSAIDs) can induce renal complications in patients taking loop diuretics. This study investigated the pharmacokinetic/pharmacodynamic effects and safety profile of orally administered diclofenac sodium, ibuprofen and diclofenac epolamine topical patch (DETP) on furosemide in healthy adult subjects. METHODS: This open-label, randomized, 5-way crossover study was conducted in 40 subjects (aged 19 - 45 y). Diclofenac (75 mg taken orally twice daily), DETP (1.3% applied topically twice daily), or ibuprofen (800 mg taken orally thrice daily) was administered for 3 consecutive days, followed by co-administration with furosemide (given intravenously as 20 mg/2 min). Plasma furosemide and NSAID concentrations, urine furosemide, sodium and potassium concentrations and urine output were determined throughout the 24 h period following furosemide administration. RESULTS: Orally administered ibuprofen significantly increased furosemide AUC(0-t) (37%) and AUC(0-inf) (36%) and decreased total body CL (27%), R(max) (19%) and CLR (23%) geometric mean ratios compared with furosemide control. Oral and topical diclofenac had no pharmacokinetic effects on furosemide. Ibuprofen increased sodium excretion (Ae(0-24), 16%) and decreased sodium R(max) (15%), and oral diclofenac decreased urine output (Vu(0-24), 15%). DETP had no effect on furosemide pharmacodynamics; total systemic exposure to diclofenac during DETP treatment was < 1% that of oral diclofenac. Treatments were generally safe, with 25 subjects reporting a total of 112 adverse events. CONCLUSIONS: Pharmacodynamic effects were seen with oral diclofenac (urine output) and ibuprofen (urine sodium excretion). Furosemide also affected plasma and urine pharmacokinetic profiles. Pharmacologic effects of DETP on furosemide were not observed under these conditions. Additional research is warranted to delineate the potential interactions of other NSAIDs with furosemide and other loop diuretics.

Comparison of tight junction protein expression in the ciliary epithelia of mouse, rabbit, cat and human eyes.

Tight junctions in the nonpigmented epithelium (NPE) of the ciliary processes and the iris vascular endothelium form the ocular blood aqueous barrier that prevents leakage of proteins, immune cells and non-immune cells of blood into the anterior chamber. We attempted to determine whether ultrastructural differences in tight junctions reported in earlier studies are reflected in the expression pattern of tight junction proteins (TJP) and whether the TJP in mice, rabbits and cats resemble those of humans. For immunohistochemistry, 10 µm thick cryosections were rehydrated in PBS and fixed in 50 mM ammonium chloride at room temperature. After rinses in PBS, the sections were incubated twice in 0.1% Triton X-100, 10% goat serum, specific primary antibody or in PBS. After rinses in PBS, the sections were incubated in FITC-conjugated secondary antibody. After rinses in PBS, the sections were mounted with Vectashield mounting medium with propidium iodide, examined and photographed using a confocal microscope. The expression patterns of TJP in ocular ciliary epithelium of human, rabbit, cat and mouse were similar. Occludin immunoreactivity was observed as a sharp line along the junction between pigmented epithelium (PE) and NPE, and along the apico-lateral surfaces of NPE. Very light staining of the ciliary stroma was observed in cat and mouse. Claudin-1 was expressed along the entire boundaries of NPE and was more distinct between PE and NPE in rabbit. The ciliary stroma showed faint staining in cat and mouse. ZO-1 showed staining between PE and NPE, and at the adjacent membrane. Moderate staining was seen in PE in cat and mouse, which suggests that claudin-1, occludin and ZO-1 are expressed along the junction between PE and NPE, and the apico-lateral border of NPE. Lack of major difference in the expression patterns among the different species is important for validating the use of rabbit, mouse and cat in studies of intraocular inflammation in humans.

The effect of hydrogen peroxide on sarco/endoplasmic and plasma membrane calcium ATPase gene expression in cultured human lens epithelial cells.

The loss of calcium homeostasis in the lens of the eye appears to be a factor contributing to lens opacity. In the human lens, calcium homeostasis depends on the Ca²âº-ATPase pumps found only in the epithelium. A plasma membrane calcium pump, PMCA2 is upregulated in human cataractous lenses. To determine if oxidation caused the plasma membrane Ca²âº-ATPases (PMCA) or sarcoplasmic/endoplasmic Ca²âº-ATPases (SERCA) to become upregulated, we cultured a human lens epithelial cell line, in the presence of hydrogen peroxide. We observed an increase in PMCA1, PMCA2 SERCA2b and SERCA3 mRNA levels and protein expression with increasing hydrogen peroxide concentrations and treatment times. Hydrogen peroxide caused a rise in the intracellular calcium which could be an initiating factor in the concerted upregulation of PMCA1 and SERCA3. Our data support the idea that oxidative stress could contribute to a selective rise in PMCA/SERCA expression in human cataractous lenses.

Modulation of ocular inflammatory responses by EP1 receptors in mice.

The purpose of the study was to investigate the role of EP1 receptors in intraocular inflammation and to determine possible interplay between EP1, EP2 and EP4 receptors. The eyes of separate groups of EP1 receptor knockout and wild type mice were: 1) treated topically with prostaglandin E2 (PGE2) or the EP2 receptor selective agonist, butaprost; 2) given intravitreal injection of LPS; or 3) paracentesis performed. Another group of knockout mice were pretreated topically with an EP4 receptor selective antagonist prior to paracentesis or LPS treatment. Results demonstrated a significant increase (50% or more) in the protein levels of aqueous humor of the EP1 knockout mice in response to PGE2, paracentesis or LPS. The leukocyte infiltration in the aqueous humor of the knockout mice was 47% higher when compared with that in the wild type controls in response to LPS injection. No significant change was observed in the protein levels in response to butaprost. Pretreating the knockout mice with an EP4 receptor antagonist prior to paracentesis and LPS treatment substantially reduced the aqueous humor protein levels. Also, the leukocyte count in the aqueous humor of the knockout mice in response to LPS was reduced 4 fold after pretreatment with EP4 receptor antagonist when compared with the findings in knockout mice receiving LPS only. We concluded that EP1 receptor has no modulatory effect on EP2 receptors but there is definitely cross-talk between EP1 and EP4 receptors.

Ocular inflammatory responses in the EP2 and EP4 receptor knockout mice.

PURPOSE: To examine the role of EP2 and EP4 receptors in murine ocular inflammation. METHODS: Prostaglandin EP2 and EP4 receptor knockout and wild-type mice were treated topically with prostaglandin E2, SDF-1, and RANTES and lipopolysaccharide by intravitreal injection. Paracentesis was performed by puncturing the cornea. The increase in the level of aqueous humor protein and the number of leukocytes were measured and the vascular leakage of protein was visualized using fluorescein angiography. RESULTS: In the EP2 receptor knockout mice, there was significant inhibition of the disruption of the blood-aqueous barrier caused by lipopolysaccharides, paracentesis, prostaglandin E2, SDF-1, and RANTES. Reductions in the disruption in the blood-aqueous barrier and leukocyte infiltration after lipopolysaccharide injection and paracentesis were significant, but there was no increase in the aqueous humor protein level after prostaglandin E2 treatment in EP4 receptor knockout mice. CONCLUSIONS: The results of the present experiments suggest that EP2 and EP4 receptors partly mediate the disruption of the blood-aqueous barrier and leukocyte infiltration induced by prostaglandin E2, SDF-1, RANTES, and lipopolysaccharides.

Plasma membrane Ca2+-ATPase expression in the human lens.

The focus of the study was to characterize plasma membrane calcium-ATPase pump (PMCA) isoform expression in the human lens and cultured lens epithelial cells as a basis for future studies of calcium homeostasis in the lens. Proteins and mRNA expression were analysed using Western Immunoblotting and reverse transcription polymerase chain reaction (RT-PCR), respectively. Clear human lenses from the Kentucky Lions Eye Bank and an immortalized human lens epithelial cell line (HLE B-3) were used. RT-PCR products of PMCA1, PMCA2, and PMCA4 primers were detected at 429, 557, and 849bp, respectively. All these products were identified as PMCA isoforms by sequence analysis. Protein bands at approximately 130, 115, and 135kDa were detected by Western blot analysis for PMCA1, PMCA2 and PMCA4, respectively. PMCA3 was not detected at protein or mRNA level in any human lens sample or cell culture, but was detected in the rat brain cortex used as a control. Several bands with lower molecular weights, especially for PMCA2, were detected in the epithelial samples and probably represent break down products of PMCA2. No PMCA proteins or breakdown products were detected in the nuclear or cortical fractions from human lenses. PMCA1, 2, and 4 proteins and mRNAs are expressed in human lens epithelium and cultured epithelial cells; PMCA3 is not. PMCA was not detected at all in the lens fibre cells. The calcium pump must be selectively processed, independent of other membrane proteins such as the Na-K-ATPase pumps, because the distribution of the Na-K-ATPase pump is asymmetrical in the epithelium and present throughout the lens whereas the calcium pumps are not. The findings of this study provide a basis for further studies to examine the role and modulation of PMCA isoforms in calcium homeostasis and in the development of cataract.

Independent predictors of morbidity and mortality in blunt colon trauma.

We sought to determine the impact of (1) grade of the colon injury, (2) the formation of an ostomy, and (3) associated injuries on outcomes such as morbidity and mortality after blunt colon injuries. We retrospectively reviewed 16,814 cases of blunt abdominal trauma. Patients with colonic injuries were selected and charts reviewed for demographic, clinical, and outcomes data. Injuries were grouped by the Colon Injury Scale (grades I-V). Independent risk factors of morbidity included spine and lung injuries, as well as increased age. A higher grade of colon injury trended toward a significant association with intra-abdominal complications. Independent risk factors of mortality included liver, heart, and lung injuries, as well as intracerebral blood and female gender. The grade of colon injury, the formation of an ostomy, and management of the colon trauma did not independently predict increased intra-abdominal complications, morbidity, or mortality. These results indicate that patients afflicted with blunt colon trauma experience a high rate of morbidity and mortality from associated injuries and or increased age. Treatment regimens directed at these factors will be most helpful in reducing the high morbidity and mortality after blunt colon trauma. Factors such as ostomy formation and management strategy are not associated with increased morbidity or mortality after blunt colon trauma.

Regulation of sarco/endoplasmic Ca2+ -ATPase expression by calcium in human lens cells.

Maintenance of cellular calcium levels is critical to cell function. Loss of calcium homeostasis might be a contributing factor to the development of cataract in the lens. In lens epithelium, calcium is involved in cell signaling and its precise regulation is vital. In this study, we investigated the regulation of sarco/endoplasmic reticulum Ca(2+)-ATPase2b (SERCA2b) and SERCA3 isoform expression in cultured epithelial B-3 cells from human lenses. Both mRNA and membrane proteins samples were collected for semi quantitative RT-PCR using GAPDH as a control. Western blot analyses were performed on membrane samples.Thapsigargin, a SERCA isoform inhibitor which causes increased cytosolic levels elicited dose-and time-dependent up-regulation of SERCA3 at both mRNA and protein levels; SERCA2b expression was unaffected. Both EGTA and actinomycin partially inhibited the thapsigargin-induced SERCA3 up-regulation. These results indicate that the up-regulation of SERCA3 by thapsigargin is dependent on a calcium-mediated pathway that is likely to occur at the transcription level.

Studies on receptor binding and signal transduction pathways of unoprostone isopropyl.

We examined the binding characteristics of unoprostone isopropyl and its metabolite, M1 (M1), in bovine corpus luteum membranes, mobilization of intracellular calcium in human ciliary muscle cells and cyclic AMP generation in rabbit iris-ciliary body. The ligand binding assay of 3H-unoprostone isopropyl and M1 did not demonstrate any specific binding of these compounds in the bovine corpus luteum membranes. However, there was a high specific binding of prostaglandin F2alpha. Competitive ligand binding studies showed that neither the docosanoid, unoprostone isopropyl, nor M1 binds to prostaglandin receptor sites. In human ciliary muscle cells that express EP1, EP2 and FP receptors, unoprostone isopropyl did not increase the mobilization of intracellular calcium nor was it able to generate cyclic AMP at low concentrations in rabbit iris-ciliary body. Similar observations were made with M1 on the above signal transduction pathways. From these results, it is concluded that unoprostone isopropyl and M1 do not bind to prostaglandin (PG) receptor sites in the bovine corpus luteum membranes and do not have affinity for PG receptors linked to intracellular calcium and cyclic AMP second messenger systems.

Anaylsis of birefringence during wound healing and remodeling following alkali burns in rabbit cornea.

The use of synthetic inhibitors of metalloproteinases (SIMP) or medroxyprogesterone (MP) can prevent or significantly delay the ulceration of alkali-injured corneas by influencing collagen degradation. We have examined the remodeling of rabbit corneal stroma following alkali injury and have assessed the effect of SIMP and MP treatment. Following a defined alkali injury to the rabbit cornea, animals were divided into three subgroups, one group treated with topical beta-mercaptomethyl tripeptide (SIMP), one treated by subconjunctival injection of MP and one treated with a control solution. The corneal tissue was taken at 3 days, 1, 2, 3, 4, 9 and 26 weeks after alkali injury and prepared for light microscopy and transmission electron microscopy (TEM). A quantitative measurement of birefringence, in terms of the optical path difference (OPD), was made using a modified polarized microscopy technique based on the analysis of interference colours. The results showed that SIMP effectively prevented deep corneal ulceration. MP could delay the ulceration and the corneas treated with MP appeared to have better transparency than the other groups. There was a significant difference of the OPD between the anterior (5.8 +/-0.3 nm) and posterior (7.8 +/-0.4 nm) stroma of the normal cornea (P<0.001). The OPD values from the central corneas from alkali-injured eyes were generally lower than normal during the first 4 weeks and then gradually recovered to the normal level or above, except for the posterior stroma of the MP-treated eyes. We found that the OPD changes were very dependent on the presence of corneal lesions. The stroma near corneal ulceration, scar tissue, calcified stroma and the retro-corneal collagen layer showed a significant reduction of birefringence (lower OPD values). These OPD values remained much lower than normal up to the end of the experiment. TEM showed disrupted corneal stroma in all three groups, with thinner scar tissue in the MP group. The fibril diameters did not change significantly 3 days and 1 week after the alkali burns (27.1+/-2.3 nm in the control group, 27.3+/-2.2 nm in the SIMP group and 27.7+/-2.1 nm in the MP group) and there were no differences compared with 29.7+/-1.7 nm of the normal cornea (P>0.05). After 2 weeks of tissue remodeling, the fibril diameters in alkali-injured corneas showed a large variation (the range was between 11.5 and 80 nm) with a bimodal distribution, especially in the control group. The technique presented here for birefringence evaluation can provide an alternative way to monitor wound healing and tissue remodeling, both visually and quantitatively.

Determinants of occurrence and volume of transpyloric flow during gastric emptying of liquids in dogs: importance of vagal input.

The precise factors and their relative contributions that lead to individual flow pulses across the pylorus during liquid gastric emptying remain unclear. Our objective was to determine the factors leading to individual flow pulses, their relative contributions and the role of the vagus nerve in their modulation. Proximal gastric tone had a strong positive correlation with the volume of the corresponding transpyloric flow pulse whereas pyloric tone had an inverse correlation. Antral contractions were associated with the presence but not the volume of the pulse. Acute vagal blockade retarded emptying via loss of proximal gastric tone and increased outflow resistance and loss of propagating antral pressure waves. In conclusion, the major determinants of the volume of pulsatile transpyloric flow are proximal gastric and pyloric tone. The vagus nerve plays a key role in regulating both proximal gastric and pyloric tone as well as moderating propagating antral contractions.

Nitrergic and cholinergic vagal pathways involved in the regulation of canine proximal gastric tone: an in vivo study.

To better understand the relationship between cholinergic and nitrergic (NO) innervation in the regulation of proximal gastric (fundic) tone in vivo, the effects of nitric oxide synthase blockade on fundic tone were studied in conscious dogs using vagal cooling and an electronic barostat. Vagal cooling, atropine (0.05 mg kg-1 i. v. bolus) and hexamethonium (1 mg kg-1 i.v. bolus) all markedly decreased fundic tone as reflected by increased intragastric volume, indicating a significant contribution of vagal and enteric cholinergic pathways to the maintenance of canine fundic tone. Administration of L-NNA (10 mg kg-1 i.v. bolus) increased fundic tone and the effects of L-NNA were completely prevented by prior vagal cooling or atropine administration, but not by pretreatment with hexamethonium. The relaxation effects of neurally derived NO appear primarily related to inhibition of ongoing vagal cholinergic activity. The data are consistent with the primary site of action of nitrergic mechanisms on gastric fundic tone in conscious dogs being at a presynaptic site on vagal cholinergic efferent nerves.

Plasma membrane calcium ATPase gene expression in bovine lens epithelium.

Plasma membrane calcium adenosine triphosphatase (Ca(2+)-ATPase) is an energy-dependent protein responsible for transporting cytosolic calcium across the plasma membrane. Multiple plasma membrane Ca(2+)-ATPase isoforms are expressed from four genes (PMCA1-4) and alternative mRNA splicing. We have studied PMCA gene expression in bovine lens epithelium tissues by reverse transcription-polymerase chain reaction, Southern blot, and Northern blot hybridization. All four PMCA genes are expressed in the lens epithelium, the PMCA3 transcript being the most abundant. The transcripts for PMCA1, PMCA2, and PMCA4 exist in decreasing order of abundance. There is no evidence for the expression of any novel PMCA genes in bovine lens epithelium.

Mice lacking the vascular endothelial growth factor-B gene (Vegfb) have smaller hearts, dysfunctional coronary vasculature, and impaired recovery from cardiac ischemia.

Vascular endothelial growth factor-B (VEGF-B) is closely related to VEGF-A, an effector of blood vessel growth during development and disease and a strong candidate for angiogenic therapies. To further study the in vivo function of VEGF-B, we have generated Vegfb knockout mice (Vegfb(-/-)). Unlike Vegfa knockout mice, which die during embryogenesis, Vegfb(-/-) mice are healthy and fertile. Despite appearing overtly normal, Vegfb(-/-) hearts are reduced in size and display vascular dysfunction after coronary occlusion and impaired recovery from experimentally induced myocardial ischemia. These findings reveal a role for VEGF-B in the development or function of coronary vasculature and suggest potential clinical use in therapeutic angiogenesis.

Responses of intraocular pressure and the pupil of feline eyes to prostaglandin EP1 and FP receptor agonists.

PURPOSE: Previous studies suggested that FP receptors do not mediate the relaxation of the ciliary muscle and reduction of intraocular pressure in cats by prostaglandin (PG) F2alpha. The present study was undertaken to determine whether the reduction of intraocular pressure in cats induced by PGF2alpha is mediated by FP or other prostaglandin receptors. METHODS: One eye of each cat was treated topically with prostaglandin F2alpha, fluprostenol (FP receptor agonist), or 17-phenyl trinor PGE2 (EP1 receptor agonist) in a dose range of 12.5 to 50 microg. The effects of SC19220 and SC51089 (EP1 receptor antagonists), BWA868c, and SQ29548 (DP and TP receptor antagonists, respectively) on the intraocular response to PGF2alpha were also examined. At intervals up to 6 hours after treatment, intraocular pressure was measured with a pneumotonometer, and pupil diameters were measured with a millimeter ruler. RESULTS: In the dose ranges used, PGF2alpha and 17-phenyl trinor PGE2 decreased intraocular pressure and pupil diameter. The greatest reduction of intraocular pressure by 50.0 microg PGF2alpha was 5.0+/-1.4 mm Hg, whereas that by 50 microg 17-phenyl trinor PGE2 was 6.2+/-1.5 mm Hg. The isopropyl ester of PGF 2alpha at a dose of 1.25 microg reduced intraocular pressure by 3.75+/-0.25 mm Hg at 2 hours. At doses up to 100 microg, fluprostenol did not decrease intraocular pressure but did reduce pupil diameter. SC19220, a weak but selective EP1 receptor antagonist, inhibited the intraocular pressure response to both PGF2alpha and 17-phenyl trinor PGE2. The more potent EP1 receptor antagonist SC51089 had a greater inhibitory effect than SC19220 on the intraocular pressure response to PGF2alpha. Both of these antagonists had a small but non-dose dependent and statistically insignificant effect on the pupil response to PGF2alpha. These observations suggest that in cats, intraocular pressure and pupil responses to PGF2alpha, are mediated by EP1 and FP receptors, respectively. However, SC19220 significantly and dose-dependently inhibited the pupil response to 17-phenyl trinor PGE2alpha suggesting that EP1 receptors mediate pupil response to this agonist. DP and TP receptor antagonists at doses 5- to 20-fold greater than the IC50 values had no effect on the ocular hypotensive response to PGF2alpha. The concurrent administration of 12.5 microg of each of PGF2alpha and 17-phenyl trinor PGE2 did not produce an additive effect on intraocular pressure, indicating that in cats PGF2alpha and 17-phenyl trinor PGE2 act on the same receptor type. CONCLUSIONS: These results suggest that a significant proportion of the ocular hypotensive action of PGF2alpha in cats is mediated by EP1 but not by FP receptor. Evidence was also provided to show that 17-phenyl trinor PGE2 is an ocular hypotensive agent in cats.

Expression of sarco/endoplasmic reticular Ca(2+)-ATPase in human lens epithelial cells and cultured human lens epithelial B-3 cells.

PURPOSE: Sarco/Endoplasmic Reticulum Ca(2+ )-ATPase (SER-CAs) isoforms, SERCA2b (100Kd) and SERCA3 (97Kd), are co-expressed in some non-muscle tissues. Both types of SERCAs play important roles in Ca(2+) regulation in non-muscle tissues such as brain and platelets. We tested whether these two SERCAs are present in human lens epithelial cells, human lens epithelial B-3 cells (HLE B-3 cells) and rat lens epithelial cells providing a basis for further studies the role of SERCAs in cataract formation. METHODS: Lens epithelial cells from rat lens, human lens and cultured human lens epithelial B-3 cell line (HLE B-3) were used to extract mRNA and membrane proteins. Reverse transcription polymerase chain reaction (RT-PCR) was employed to detect SERCA3 and SERCA2b mRNA using SERCA2b and SERCA3 primers. Western blotting was used to detect SERCA3 and SERCA2b proteins using anti-SERCA2b and 3 antibodies. RESULTS: A 270 bp fragment was amplified with SERCA2b primers and a 186 bp fragment amplified with SERCA3 primer in human lens epithelial cells, human lens epithelial B-3 cells and rat lens epithelial cells. Both fragments are the expected SERCA2b and SERCA3 products. The sequences of these two fragments in human lens epithelial cells are 100% and 98% homologous to the published partial SERCA2b and SERCA3 mRNA sequence, respectively. The amino acid sequences translated from both PCR products are 100% homologous to the published SERCA2b and SERCA3 sequences in GeneBank. Western blotting confirmed that the expected 100 KDa and a 97 KDa proteins are recognized by anti-SERCA2b and anti-SERCA3 antibodies. CONCLUSION: Sarco/Endoplasmic Reticulum Ca(2+)-ATPase (SERCAs) isoforms 2b and 3 mRNAs are expressed in human lens epithelial cells, the cultured human lens epithelial B-3 cell line (HLE B-3) and rat lens epithelial cells. SERCA2b and SERCA3 may play an important role in the regulation of calcium homeostasis in lens epithelial cells.

Ca(2+)-ATPase activity and lens lipid composition in reconstituted systems.

Lens lipid composition and lipid hydrocarbon chain structure change with age, region and cataract. Since the lens Ca(2+)-ATPase pump is important to the maintenance of calcium homeostasis and lens clarity, muscle sarcoplasmic reticulum Ca(2+)-ATPase was reconstituted with bovine lens lipids and dihydrosphingomyelin, the rare and major phospholipid of the human lens. Ca(2+)-ATPase activity was found to be about 5 times lower when the pump was reconstituted into dihydrosphingomyelin or lens lipids compared to native sarcoplasmic reticulum lipids. The addition of cholesterol to levels ranging from 13-53 mole%, had no affect on reconstituted Ca(2+)-ATPase activity. Ca(2+)-ATPase activity correlated with the degree of hydrocarbon chain saturation. The greater levels of saturation are a consequence of the high sphingolipid content in the reconstituted systems. These data support the hypothesis that changes in lens lipid composition or structure could affect Ca(2+)-ATPase activity in human lenses. Because the mechanisms governing Ca(2+)-ATPase activity in vivo are much more complex than in these simple reconstituted systems, this study represents an initial step in the elucidation of the relationships of endogenous membrane lipid composition-structure and function.