Wolfram-like syndrome - another face of a rare disease in children.

Objectives: The presence of two pathogenic variants in the gene leads to the occurrence of a rare genetic disease in children - Wolfram syndrome (WFS), which includes insulin-dependent diabetes mellitus (DM), optic atrophy (OA), diabetes insipidus (DI), and deafness (D). However, the presence of a single mutation in the gene results in a number of other autosomal dominant inherited diseases, including Wolfram-like syndrome (WFS-like).

Case Presentation: A 10-year-old boy was referred to the Genetic Outpatient Clinic with suspected WFS based on the coexistence of D, type 1 DM, short stature, and abnormalities in ophthalmologic examination (astigmatism and OA due to the optical coherence tomography result).

How does the N-acylation and esterification of amphotericin B molecule affect its interactions with cellular membrane components-the Langmuir monolayer study.

This work presents the results of Langmuir monolayers study of two amphotericin B derivatives obtained by N-acylation (N-acetylamphotericin B, Ac-AmB) and esterification (amphotericin B methyl ester, AME) of the parent AmB molecule. The main objective of present investigations was to examine the strength and nature of interactions of Ac-AmB and AME with natural membrane components as compared to AmB, and verify the monolayer results with biological studies in vitro. Our experiments were based on surface pressure-area measurements of mixed monolayers formed by the investigated antibiotics and sterols/DPPC.

Proangiogenic activity of beta-carotene is coupled with the activation of endothelial cell chemotaxis.

Endothelial cells play an important role in angiogenesis (formation of new vessels from preexisting ones), which is essential for organogenesis, tissue remodeling but also inflammatory response, carcinogenesis in all periods of our life. Beta-carotene (BC) in non-toxic concentrations (up to 3 microM) had no detectable effect on HUVECs (human umbilical vein endothelial cells) proliferation or apoptosis, despite significant changes of the expression patterns of pro- and anti-apoptotic genes. However beta-carotene did not change the tubulogenic activity of HUVEC in the in vitro angiogenesis model, it potently accelerated the bFGF-induced development of microcapillaries, as well as the migration of endothelial cells, in matrigel plug injected subcutaneously to mice.

N-(1-piperidinepropionyl)amphotericin B methyl ester (PAME)--a new derivative of the antifungal antibiotic amphotericin B: searching for the mechanism of its reduced toxicity.

N-(1-piperidinepropionyl)amphotericin B methyl ester (in short, PAME), a low-toxicity amphotericin B derivative, has been investigated in Langmuir monolayers at the air/water interface alone and in mixtures with cellular membrane sterols (a mammalian sterol, cholesterol, and a fungal sterol, ergosterol) and a model phospholipid (DPPC). The analysis of the strength of interaction between PAME and both sterols as well as DPPC was based, on surface pressure measurements and analysis of the isothermal compressibility (C(s)(-1)), the mean area per molecule (A(12)), the excess free energy of mixing (DeltaG(Exc)) and the total free energy of mixing (DeltaG(M)). It has been found that the interactions between PAME and sterols are attractive; however, their strength is significantly weaker for mixtures of PAME with cholesterol than with ergosterol.

Interactions of amphotericin B derivative of low toxicity with biological membrane components--the Langmuir monolayer approach.

Amphotericin B (AmB)--a polyene macrolide antibiotic--exhibits strong antifungal activity, however, is known to be very toxic to mammalian cells. In order to decrease AmB toxicity, a number of its derivatives have been synthesized. Basing on in vitro and in vivo research, it was evidenced that one of AmB derivatives, namely N-methyl-N-D-fructopyranosylamphotericin B methyl ester (in short MF-AME) retained most of the antifungal activity of the parent antibiotic, however, exhibited dramatically lower animal toxicity.

beta-Carotene stimulates chemotaxis of human endothelial progenitor cells.

Angiogenesis is a crucial process in tissue remodeling during growth, both in the embryo and the adult. In our study we concentrated on the direct effect of beta-carotene on human umbilical cord originating from endothelial progenitor cells (EPCs). beta-Carotene uptake by EPCs was measured using a HPLC method.

The microarray expression analysis identifies BAX as a mediator of beta-carotene effects on apoptosis.

Beta-carotene is a ubiquitous compound rich in foods. However, there are conflicting reports regarding its role in carcinogenesis. We performed a microarray expression analysis in normal [human umbilical vein endothelial cells (HUVECs)] and neoplastic (melanoma A375 and myelomonocytic leukemia U937) actively proliferating cells and found evidence that beta-carotene stimulated vital cellular functions in the former and suppressed them in the latter.

The role of halogen substitution in classical cannabinoids: a CB1 pharmacophore model.

The presence of halogens within the classical cannabinoid structure leads to large variations in the compounds' potencies and affinities for the CB1 receptors. To explore the structure activity relationships within this class of analogs we have used a series of halogen-substituted (-)-Delta8-tetrahydrocannabinol analogs and compared their affinities for the CB1 cannabinoid receptor. Our results indicate that halogen substitution at the end-carbon of the side chain leads to an enhancement in affinity with the bulkier halogens (Br, I) producing the largest effects.

Studies of the effects of antifungal cationic derivatives of amphotericin B on human erythrocytes.

The novel group of amphotericin B (AmB) cationic derivatives has been examined in terms of relationship between self-association and selective toxicity. In all determinations AmB has been used as reference compound. In vitro toxic effects of the compounds on human erythrocytes were determined by measuring leakage of intracellular potassium ions and hemolysis.

MFAME, N-methyl-N-D-fructosyl amphotericin B methyl ester, a new amphotericin B derivative of low toxicity: relationship between self-association and effects on red blood cells.

In aqueous solutions N-methyl-N-D-fructosyl amphotericin B methyl ester (MFAME), a novel amphotericin B derivative with low animal toxicity, similar to its parent antibiotic, exists in three forms: monomeric, soluble and insoluble aggregates in equilibrium [1]. The aim of our work was to examine the influence of medium composition on the MFAME self-association and the relationship between MFAME self-association and its toxicity towards red blood cells. The toxicity of MFAME in aggregated state towards red blood cells was tested by measuring the induction of potassium leakage and extent of haemolysis.

Delivery systems for antisense oligonucleotides.

In vitro, the efficacy of the antisense approach is strongly increased by systems delivering oligodeoxyribonucleotides (ODNs) to cells. Up to now, most of the developed vectors favor ODN entrance by a mechanism based on endocytosis. Such is the case for particulate systems, including liposomes (cationic or non-cationic), cationic polyelectrolytes, and delivery systems targeted to specific receptors.

Comparative studies on cell stimulatory, permeabilizing and toxic effects induced in sensitive and multidrug resistant fungal strains by amphotericin B (AMB) and N-methyl-N-D-fructosyl amphotericin B methyl ester (MFAME).

N-Methyl-N-D-fructosyl-amphotericin B methyl ester (MFAME) is a new derivative of amphotericin B, which is characterised by low toxicity to mammalian cells and good solubility in water of its salts. The antifungal activity and effects of MFAME towards Candida albicans and Saccharomyces cerevisiae multidrug resistant MDR(+) and sensitive MDR(-) strains was compared with those of parent compound. The results obtained indicate that MDR(+) S.

A novel electrophilic high affinity irreversible probe for the cannabinoid receptor.

In order to explore the structural requirements for cannabinoid activity we have been involved in the design and synthesis of stereochemically defined high affinity probes for the cannabinoid receptor. This effort has involved the development of irreversible ligands which will allow us to obtain detailed information on the cannabinoid receptor active site(s). The irreversible ligands, which incorporate highly reactive functional groups in a strategic position of the ligand, may form covalent bonds with amino acid residues at the receptor active site or in the neighborhood of this site.

Pharmacological evaluation of iodo and nitro analogs of delta 8-THC and delta 9-THC.

One aspect of cannabinoid structure-activity relationships (SARs) that has not been thoroughly investigated is the aromatic (A) ring. Although halogenation of the side chain enhances potency, our recent observation that iodination of the A ring also enhanced activity was surprising. The purpose of this investigation was to establish the steric and electrostatic requirements at these sites of the cannabinoid molecule via molecular modeling, while determining pharmacological activity.

Influence of net charge on the aggregation and solubility behaviour of amphotericin B and its derivatives in aqueous media.

The poor solubility of polyene antibiotics in aqueous media limits their application in the therapy of systemic fungal infections. In the present paper we have demonstrated that the ionic state (net electrical charge) of the antibiotic molecule is an important factor in determining the aggregation and solubility properties of amphotericin B and its derivatives. A multi-step model of polyene self-association in aqueous media has been proposed as an explanation for the fact that some major differences are observed when aggregation is monitored by different techniques.

Quantitative structure-activity relationships in amphotericin B derivatives.

The quantitative structure-activity relationships studies of amphotericin B and its 16 semisynthetic derivatives obtained by modification at carboxyl and amino groups have been done. The results of five biological tests were subjected to principal component analysis, a numerical method useful in the investigation of large sets of data. For some compounds, also, interaction with lipidic vesicles was investigated by spectroscopic methods.