Pregn-5-en-3ß-ol and androst-5-en-3ß-ol dicarboxylic acid esters as potential therapeutics for NMDA hypofunction: In vitro safety assessment and plasma stability.

Neurosteroids are endogenous steroidal compounds that can modulate neuronal receptors. N-Methyl-D-aspartate receptors (NMDARs) are glutamate-gated, calcium-permeable ion channels that are of particular interest, as they participate in synaptic transmission and are implicated in various processes, such as learning, memory, or long-term neuronal potentiation. Positive allosteric modulators that increase the activity of NMDARs may provide a therapeutic aid for patients suffering from neuropsychiatric disorders where NMDAR hypofunction is thought to be involved, such as intellectual disability, autism spectrum disorder, or schizophrenia. We recently described a new class of pregn-5-ene and androst-5-ene 3ß-dicarboxylic acid hemiesters (2-24) as potent positive modulators of NMDARs. Considering the recommended guidelines for the early stage development of new, potent compounds, we conducted an in vitro safety assessment and plasma stability screening to evaluate their druglikeness. First, compounds were screened for their hepatotoxicity and mitochondrial toxicity in a HepG2 cell line. Second, toxicity in primary rat postnatal neurons was estimated. Next, the ability of compounds 2-24 to cross a Caco-2 monolayer was also studied. Finally, rat and human plasma stability screening revealed an unforeseen high stability of the C-3 hemiester moiety. In summary, by using potency/efficacy towards NMDARs data along with toxicity profile, Caco-2 permeability and plasma stability, compounds 14 and 15 were selected for further in vivo animal studies.

Assessment of cholesterol-derived ionic copolymers as potential vectors for gene delivery.

A library of cholesterol-derived ionic copolymers were previously synthesized via reversible addition-fragmentation chain transfer (RAFT) polymerization as 'smart' gene delivery vehicles that hold diverse surface charges. Polyplex systems formed with anionic poly(methacrylic acid-co-cholesteryl methacrylate) (P(MAA-co-CMA)) and cationic poly(dimethylamino ethyl methacrylate-co-cholesteryl methacrylate) (Q-P(DMAEMA-co-CMA)) copolymer series were evaluated for their therapeutic efficiency. Cell viability assays, conducted on SHEP, HepG2, H460, and MRC5 cell lines, revealed that alterations in the copolymer composition (CMA mol %) affected the cytotoxicity profile. Increasing the number of cholesterol moieties in Q-P(DMAEMA-co-CMA) copolymers reduced the overall toxicity (in H460 and HepG2 cells) while P(MAA-co-CMA) series displayed no significant toxicity regardless of the CMA content. Agarose gel electrophoresis was employed to investigate the formation of stable polyplexes and determine their complete conjugation ratios. P(MAA-co-CMA) copolymer series were conjugated to DNA through a cationic linker, oligolysine, while Q-P(DMAEMA-co-CMA)-siRNA complexes were readily formed via electrostatic interactions at conjugation ratios beginning from 6:1:1 (oligolysine-P(MAA-co-CMA)-DNA) and 20:1 (Q-P(DMAEMA-co-CMA)-siRNA), respectively. The hydrodynamic diameter, ζ potential and complex stability of the polyplexes were evaluated in accordance to complexation ratios and copolymer composition by dynamic light scattering (DLS). The therapeutic efficiency of the conjugates was assessed in SHEP cells via transfection and imaging assays using RT-qPCR, Western blotting, flow cytometry, and confocal microscopy. DNA transfection studies revealed P(MAA-co-CMA)-oligolysine-DNA ternary complexes to be ineffective transfection vehicles that mostly adhere to the cell surface as opposed to internalizing and partaking in endosomal disrupting activity. The transfection efficiency of Q-P(DMAEMA-co-CMA)-GFP siRNA complexes were found to be polymer composition and N/P ratio dependent, with Q-2% CMA-GFP siRNA polyplexes at N/P ratio 20:1 showing the highest gene suppression in GFP expressing SHEP cells. Cellular internalization studies suggested that Q-P(DMAEMA-co-CMA)-siRNA conjugates efficiently escaped the endolysosomal pathway and released siRNA into the cytoplasm. The gene delivery profile, reported herein, illuminates the positive and negative attributes of each therapeutic design and strongly suggests Q-P(DMAEMA-co-CMA)-siRNA particles are extremely promising candidates for in vivo applications of siRNA therapy.

Mouse Bsep ATPase assay: a nonradioactive tool for assessment of the cholestatic potential of drugs.

The mouse ortholog of the human bile salt export pump (BSEP) transporter was expressed in a baculovirus-infected insect cell (Sf9) system to study the effect of membrane cholesterol content on the transporter function. The transport activity of cholesterol-loaded mouse Bsep-HAM-Sf9 vesicles was determined in a vesicular transport assay with taurochenodeoxycholate (TCDC), a known BSEP substrate. Mouse Bsep transports TCDC at a high rate that can be sensitively detected in the ATPase assay. Cholesterol upload of the Sf9 membrane potentiates both TCDC transport and TCDC-stimulated ATPase activities. Inhibitory effect of BSEP interactors on probe substrate transport was tested in both vesicular transport and ATPase assays using cholesterol-loaded membrane vesicles. A good rank order correlation was found between IC(50) values measured in TCDC-stimulated mBsep ATPase assay and in the human BSEP vesicular transport assay utilizing taurocholate (TC) as probe substrate. This upgraded form of the mouse Bsep-HAM ATPase assay is a user friendly, sensitive, nonradioactive method for early high-throughput screening of drugs with BSEP-related cholestatic potential. It may complement the human BSEP-mediated taurocholate vesicular transport inhibition assay.

Cholesterol-induced modifications in lipid bilayers: a simulation study.

We present analysis of new configurational bias Monte Carlo and molecular dynamics simulation data for bilayers of dipalmitoyl phosphatidyl choline and cholesterol for dipalmitoyl phosphatidyl choline:cholesterol ratios of 24:1, 47:3, 11.5:1, 8:1, 7:1, 4:1, 3:1, 2:1, and 1:1, using long molecular dynamics runs and interspersed configurational bias Monte Carlo to ensure equilibration and enhance sampling. In all cases with cholesterol concentrations above 12.5% the area per molecule of the heterogeneous membrane varied linearly with cholesterol fraction. By extrapolation to pure cholesterol, we find the cross-sectional area of cholesterol in these mixtures is approximately 22.3 A(2). From the slope of the area/molecule relationship, we also find that the phospholipid in these mixtures is in a liquid ordered state with an average cross-sectional area per lipid of 50.7 A(2), slightly above the molecular area of a pure phospholipid gel. For lower concentrations of cholesterol, the molecular area rises above the straight line, indicating the "melting" of at least some of the phospholipid into a fluid state. Analysis of the lateral distribution of cholesterol molecules in the leaflets reveals peaks in radial distributions of cholesterols at multiples of approximately 5 A. These peaks grow in size as the simulation progresses, suggesting a tendency for small subunits of one lipid plus one cholesterol, hydrogen bonded together, to act as one composite particle, and perhaps to aggregate with other composites. Our results are consistent with experimentally observed effects of cholesterol, including the condensation effect of cholesterol in phospholipid monolayers and the tendency of cholesterol-rich domains to form in cholesterol-lipid bilayers. We are continuing to analyze this tendency on longer timescales and for larger bilayer patches.

Safety evaluation of phytosterol esters. Part 1. Assessment of oestrogenicity using a combination of in vivo and in vitro assays.

Phytosterols are natural constituents of the human diet, and as part of an extensive programme of safety evaluation studies investigating their use as a novel food ingredient, the possible oestrogenic effects of phytosterols have been investigated using a combination of in vitro and in vivo assays. Competitive binding with the immature rat uterine oestrogen receptor (ER) has been used to measure the ability of phytosterols to bind to ERs while the transcriptional activation of oestrogen-responsive genes has been examined in an oestrogen-inducible yeast screen. Phytosterols did not display any activity in these in vitro assays. Uterotrophic assays have been conducted to investigate the potential for phytosterols to elicit an oestrogenic response when administered orally to immature female rats (n = 10) at doses of 0, 5, 50 or 500 mg/kg/day for 3 consecutive days. Phytosterols (a well characterized mixture of beta-sitosterol, campesterol and stigmasterol) and phytosterol esters (the previous phytosterol mixture esterified with fatty acids from sunflower oil) did not exhibit oestrogenic activity in the immature female rat using uterine wet weight as the endpoint. Beta-oestradiol (0.4 mg/kg/day) consistently produced a significant increase in uterus weights. Coumestrol (a known phytoestrogen) was also tested as a weak positive control and produced a dose response at doses of 20, 40 and 80 mg/kg/day in the uterotrophic assay. In conclusion, we have shown that phytosterols do not bind to the ER and do not stimulate transcriptional activity of the human ER in a recombinant yeast strain. In addition, there was no indication of oestrogenicity from the uterotrophic assay when the material was administered by oral gavage to immature female rats.

Assessment of progesterone-induced acrosome reaction by biotinylated monoclonal antibody probes.

PROBLEM: To develop an immunohistochemical assay for determination of acrosome-reacted human sperm and to study the effects of progesterone and cholesterol treatment on human sperm acrosome reaction. METHOD OF STUDY: Three distinct anti-sperm monoclonal antibodies were biotinylated and used as probes for assessment of acrosome reaction in a 30-min immunohistochemical assay. Progesterone and/or cholesterol were added to sperm preparation to influence the acrosome reaction in different experimental conditions. RESULTS: Percentages of acrosome-intact sperm decreased significantly during the 18-hr incubation. Acrosome reaction could be induced by progesterone as early as 2 hr after sperm incubation in human tubal fluid. The degree of progesterone-induced acrosome reaction was time dependent and the optimal effect was reached by adding 10 micrograms/ml progesterone for 30 min incubation. Progesterone-induced acrosome reaction was shown to be hormone-concentration dependent with 50% stimulation at 1 microgram/ml. Cholesterol (1 microgram/ml) was found to inhibit progesterone-induced acrosome reaction either by co-incubation with human sperm during capacitation, or by simultaneous incubation with progesterone during acrosome reaction induction. CONCLUSIONS: Assessment of human sperm acrosomal status by avidin-biotin immunohistochemical assay can be a routine in clinical laboratories for male infertility services. Cholesterol can inhibit progesterone-induced acrosome reaction, possibly by its modifications of sperm plasma membrane and/or interference of progesterone binding to its surface receptors.

[Incorporation of an antineoplastic drug aclarubicin into liposomes in relation to the conditions of its encapsulation]. / Vkliuchenie v liposomy protivoopukholevogo antibiotika aklarubitsina v zavisimosti ot uslovii inkapsulirovaniia.

The results of liposome drug encapsulation of aclarubicin (aclacinomycin A), an antitumor antibiotic, are presented. The method of flow detergent dialysis was applied. Conditions providing maximum encapsulation of aclarubicin (the ratio of lipid components and the lipid/detergent ratio), as well as conditions providing stability of liposomal emulsion (the presence of antioxidants, stearic acid and cholesterol) were defined.

Assessment, in vitro, of the thrombogenicity of embolic homologous arterial thrombus material and of cholesterol crystals.

One of the complications associated with atherothromboembolic lesions is thrombosis. Recent evidence suggests that a non-lipid component of atheroma is intensely thrombogenic. To determine whether other of the embolic components might be thrombogenic, both homologous arterial thrombus material and pure cholesterol crystals were assessed by adding 0.9 mg of thrombus material or an equivalent quantity of crystals to 1 ml aliquots of recalcified rabbit arterial blood in tests designed to measure either clotting times or the size and weight of thrombi experimentally induced in a Chandler tube apparatus. This data was compared to that of comparative saline control conditions. The results indicate that homologous arterial thrombus material is moderately thrombogenic and that cholesterol crystals are not thrombogenic. This study demonstrates that embolizing arterial thrombus material could be contributory to secondary, and thus potentially more injurious, reactions in embolic vascular disease, and that cholesterol crystals appear not to contribute to complicating secondary thrombotic reactions.