67 results on '"Amnon Hoffman"'
Search Results
2. Insulin sensitizer prevents and ameliorates experimental type 1 diabetes
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Jacob Bar-Tana, Amnon Hoffman, Terry G. Unterman, and Michael Valitsky
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Male ,0301 basic medicine ,endocrine system ,medicine.medical_specialty ,endocrine system diseases ,Physiology ,Endocrinology, Diabetes and Metabolism ,medicine.medical_treatment ,030209 endocrinology & metabolism ,Context (language use) ,Streptozocin ,Diabetes Mellitus, Experimental ,Rats, Sprague-Dawley ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Insulin resistance ,Mice, Inbred NOD ,Insulin-Secreting Cells ,Physiology (medical) ,Internal medicine ,Diabetes mellitus ,medicine ,Animals ,Hypoglycemic Agents ,Insulin ,Dicarboxylic Acids ,NOD mice ,Type 1 diabetes ,business.industry ,nutritional and metabolic diseases ,Drug Synergism ,medicine.disease ,Streptozotocin ,Rats ,Diabetes Mellitus, Type 1 ,030104 developmental biology ,Endocrinology ,Drug Therapy, Combination ,Female ,Insulin Resistance ,business ,Insulitis ,medicine.drug - Abstract
Insulin-dependent type-1 diabetes (T1D) is driven by autoimmune β-cell failure, whereas systemic resistance to insulin is considered the hallmark of insulin-independent type-2 diabetes (T2D). In contrast to this canonical dichotomy, insulin resistance appears to precede the overt diabetic stage of T1D and predict its progression, implying that insulin sensitizers may change the course of T1D. However, previous attempts to ameliorate T1D in animal models or patients by insulin sensitizers have largely failed. Sensitization to insulin by MEthyl-substituted long-chain DICArboxylic acid (MEDICA) analogs in T2D animal models surpasses that of current insulin sensitizers, thus prompting our interest in probing MEDICA in the T1D context. MEDICA efficacy in modulating the course of T1D was verified in streptozotocin (STZ) diabetic rats and autoimmune nonobese diabetic (NOD) mice. MEDICA treatment normalizes overt diabetes in STZ diabetic rats when added on to subtherapeutic insulin, and prevents/delays autoimmune T1D in NOD mice. MEDICA treatment does not improve β-cell insulin content or insulitis score, but its efficacy is accounted for by pronounced total body sensitization to insulin. In conclusion, potent insulin sensitizers may counteract genetic predisposition to autoimmune T1D and amplify subtherapeutic insulin into an effective therapeutic measure for the treatment of overt T1D.
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- 2017
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3. The effect of piperine on oral absorption of cannabidiol following acute vs. chronic administration
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Abraham J. Domb, Amnon Hoffman, and Dvora Izgelov
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Absorption (pharmacology) ,Male ,Polyunsaturated Alkamides ,Rat model ,Pharmaceutical Science ,Administration, Oral ,Biological Availability ,02 engineering and technology ,Pharmacology ,030226 pharmacology & pharmacy ,Oral Mucosal Absorption ,Single dose regimen ,03 medical and health sciences ,First pass effect ,chemistry.chemical_compound ,0302 clinical medicine ,Alkaloids ,Piperidines ,medicine ,Animals ,Cannabidiol ,Benzodioxoles ,Rats, Wistar ,business.industry ,Alkaloid ,021001 nanoscience & nanotechnology ,Bioavailability ,Rats ,chemistry ,Piperine ,0210 nano-technology ,business ,Piper nigrum ,medicine.drug - Abstract
Piperine is an alkaloid naturally found in black pepper with a myriad of pharmacological attributes. Piperine's most far reaching indication is drug absorption enhancment, with supportive data regarding its ability to inhibit first pass effect mechanisms. However, alongside these findings, the role of piperine as an absorption enhancer is undermined with publications stating an apparent effect of a metabolic inducer. The aim of this work is to investigate the effect of repeated administration of piperine in a lipid-based formulation ,on oral absorption of cannabidiol (CBD), compared to acute piperine dosing. The effect of piperine on CBD absorption was determined pre-clinically in the freely moving rat model. Results of this work demonstrated that there was no significant difference in piperine's effect, when given chronically or in a single dose regimen. Both groups resulted in approximate 2.5-fold increase in oral bioavailability of CBD compared to control group without piperine.
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- 2019
4. Novel humanin analogs confer neuroprotection and myoprotection to neuronal and myoblast cell cultures exposed to ischemia-like and doxorubicin-induced cell death insults
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Agata Gitlin-Domagalska, Shiran Yehoshua Alshanski, Adi Shumacher-Klinger, Mahmoud Taha, Chaim Gilon, Philip Lazarovici, Adi Lahiani, Dan Gilon, Amnon Hoffman, and Israel Sekler
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Programmed cell death ,Physiology ,Apoptosis ,030209 endocrinology & metabolism ,Mitochondrion ,Pharmacology ,Biochemistry ,Neuroprotection ,Myoblasts ,Mice ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,0302 clinical medicine ,Endocrinology ,Ischemia ,medicine ,Animals ,Humans ,Phosphorylation ,Protein kinase B ,Cells, Cultured ,Humanin ,Neurons ,Cardiotoxicity ,Antibiotics, Antineoplastic ,Chemistry ,Intracellular Signaling Peptides and Proteins ,Neurotoxicity ,medicine.disease ,Mitochondria ,Rats ,Neuroprotective Agents ,Doxorubicin ,030217 neurology & neurosurgery - Abstract
Humanin (HN) is a 24-amino acid mitochondrial-derived peptide, best known for its ability to protect neurons from damage caused by ischemic stroke and neurodegenerative insults and cardiomyocytes from myocardial infarction or doxorubicin (Dox)-induced cardiotoxicity. This study examines the neuroprotective and myoprotective effects of HN novel synthetic analogs HUJInin and c(D-Ser14-HN), prepared by solid-phase peptide synthesis. The cellular models employed were oxygen-glucose-deprivation (OGD) followed by reoxygenation (R)-induced neurotoxicity in PC12 and SH-SY5Y neuronal cell cultures and Dox-induced cardiotoxicity in H9c2 and C2C12 myoblast cell cultures, respectively. Necrotic and apoptotic cell death was measured by LDH release and caspase-3 activity. Erk 1/2 and AKT phosphorylations were examined by western blotting. Mitochondrial calcium and mitochondrial membrane potential were measured using the fluorescent dye tetramethylrhodamine-methyl ester. It was found that HUJInin and c(D-Ser14-HN) conferred significant dose-dependent neuroprotection, a phenomenon related to attenuation of OGD insult-induced Erk 1/2 phosphorylation, stimulation of AKT phosphorylation and improvement of mitochondrial functions. These peptides also conferred myoprotective effect towards Dox-induced apo-necrotic cell death insults. HUJInin and c(D-Ser14-HN) synthetic analogs may provide new lead compounds for the development of a potential candidate drug for stroke treatment and/or Dox-induced cardiotoxicity therapy in cancer patients.
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- 2020
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5. The effect of medium chain and long chain triglycerides incorporated in self-nano emulsifying drug delivery systems on oral absorption of cannabinoids in rats
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Dvora Izgelov, Abraham J. Domb, Eliyahu Shmoeli, and Amnon Hoffman
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Male ,Administration, Oral ,Pharmaceutical Science ,02 engineering and technology ,Absorption (skin) ,030226 pharmacology & pharmacy ,03 medical and health sciences ,Drug Delivery Systems ,0302 clinical medicine ,Pharmacokinetics ,Nano ,medicine ,Animals ,Cannabidiol ,Dronabinol ,Rats, Wistar ,Triglycerides ,chemistry.chemical_classification ,Chromatography ,Cannabinoids ,Chemistry ,Fatty acid ,021001 nanoscience & nanotechnology ,Rats ,Bioavailability ,Gastrointestinal Absorption ,Emulsifying Agents ,Drug delivery ,Nanoparticles ,0210 nano-technology ,Long chain ,medicine.drug - Abstract
The aim of this research was to investigate the effect of the lipid component in self-emulsifying drug delivery systems on the oral absorption of major cannabinoids Δ9-tetrahydrocannabinol (THC) and Cannabidiol (CBD). The investigated lipids were either long chain triglycerides (LCT) or medium chain triglycerides (MCT) with different composition, fatty acid chain length, degree of saturation and their absorption pathway to the systemic circulation. Formulations were developed with the purpose of creating thermodynamically stable oil-in-water nano emulsions/suspensions with particle size of 50 nm or less which carry the lipophilic drug and increase water solubility. Following a methodic screening of suitable excipients in-vitro, leading formulations based on sesame oil or MIGLYOL® 812N (Type I LCT/MCT SNEDDS) and cocoa butter or tricaprin (Type II LCT/MCT SNEDDS) were investigated in the freely moving rat model. Results in rat model demonstrated that the effect of each type of lipid on bioavailability of cannabinoids is not straightforwardly anticipated. The differences in the effect of LCT and MCT on absorption was not substantial for Type I formulations, however, more prominent for Type II formulations. This unpredictable behavior in-vivo demonstrates the importance of investigating each vehicle pre-clinically, following the in-vitro development.
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- 2020
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6. Enhancing Oral Bioavailability of Cyclic RGD Hexa-peptides by the Lipophilic Prodrug Charge Masking Approach: Redirection of Peptide Intestinal Permeability from a Paracellular to Transcellular Pathway
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Chaim Gilon, Agata Gitlin-Domagalska, Joseph Fanous, Amnon Hoffman, Michael Weinmüller, Andreas F. B. Räder, Adi Schumacher-Klinger, Horst Kessler, Florian Reichart, and Shira Merzbach
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0301 basic medicine ,Male ,Cell Membrane Permeability ,Brush border ,Chemistry, Pharmaceutical ,Pharmaceutical Science ,Administration, Oral ,Biological Availability ,Peptide ,01 natural sciences ,Peptides, Cyclic ,03 medical and health sciences ,Peptide Library ,Drug Discovery ,medicine ,Animals ,Humans ,Prodrugs ,Transcellular ,Intestinal Mucosa ,Rats, Wistar ,chemistry.chemical_classification ,Intestinal permeability ,010405 organic chemistry ,Vesicle ,Prodrug ,medicine.disease ,0104 chemical sciences ,Bioavailability ,Rats ,030104 developmental biology ,chemistry ,Intestinal Absorption ,Cyclization ,Paracellular transport ,Area Under Curve ,Models, Animal ,Biophysics ,Molecular Medicine ,Caco-2 Cells ,Hydrophobic and Hydrophilic Interactions - Abstract
Hydrophilic peptides constitute most of the active peptides. They mostly permeate via tight junctions (paracellular pathway) in the intestine. This permeability mechanism restricts the magnitude of their oral absorption and bioavailability. We hypothesized that concealing the hydrophilic residues of the peptide using the lipophilic prodrug charge masking approach (LPCM) can improve the bioavailability of hydrophilic peptides. To test this hypothesis, a cyclic N-methylated hexapeptide containing Arg-Gly-Asp (RGD) and its prodrug derivatives, masking the Arg and Asp charged side chains, were synthesized. The library was evaluated for intestinal permeability in vitro using the Caco-2 model. Further investigation of metabolic stability ex vivo models in rat plasma, brush border membrane vesicles (BBMVs), and isolated CYP3A4 microsomes and pharmacokinetic studies was performed on a selected peptide and its prodrug (peptide 12). The parent drug analogues were found to have a low permeability rate in vitro, corresponding to atenolol, a marker for paracellular permeability. Moreover, palmitoyl carnitine increased the P
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- 2018
7. The Effect of Piperine Pro-Nano Lipospheres on Direct Intestinal Phase II Metabolism: The Raloxifene Paradigm of Enhanced Oral Bioavailability
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Dvora Izgelov, Irina Cherniakov, Amnon Hoffman, Abraham J. Domb, and Gefen Aldouby Bier
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Male ,Polyunsaturated Alkamides ,Chemistry, Pharmaceutical ,Glucuronidation ,Pharmaceutical Science ,Administration, Oral ,Biological Availability ,Pharmacology ,030226 pharmacology & pharmacy ,Excipients ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Alkaloids ,Drug Delivery Systems ,Piperidines ,Drug Discovery ,medicine ,Animals ,Raloxifene ,Benzodioxoles ,Rats, Wistar ,Metabolism ,Lipids ,Metabolic Detoxication, Phase II ,Bioavailability ,Rats ,Intestines ,chemistry ,Drug development ,030220 oncology & carcinogenesis ,Piperine ,Raloxifene Hydrochloride ,Drug delivery ,Molecular Medicine ,Nanoparticles ,Emulsions ,Drug metabolism ,medicine.drug - Abstract
Phase II biotransformation reactions have been gaining more attention due to their acknowledged significance in drug bioavailability, drug development, and drug-drug interactions. However, the predominant role of phase I metabolism has always overshadowed phase II metabolism, resulting in insufficient data regarding its mechanisms. In this paper, we investigate the effect of an advanced lipid based formulation on the phase II metabolism process of glucuronidation, occuring in the enterocytes monolayer. The investigated formulation is a self-emulsifying drug delivery system, termed pro-nano lipospheres, which contains the natural absorption enhancer piperine. To evaluate the effect of this formulation on direct glucuronidation we chose the model molecule raloxifene. First, glucuronidation is the main clearance pathway of this compound without involvement of preceding mechanisms. Second, raloxifene's extensive glucuronidation site is primarily at the intestine. Raloxifene's oral bioavailability was determined in a series of pharmacokinetic experiments using the freely moving rat model. In order to test the effect of the formulation on the relevant UGT enzymes reported in the clinic, we used the in vitro method of UGT-Glo Assay. Coadministration of raloxifene and piperine pro-nano lipospheres to rats resulted in a 2-fold increase in the relative oral bioavailability of raloxifene. However, coadministration of raloxifene with blank pro-nano lipospheres had no effect on its oral bioavailability. In contrast to the difference found in vivo between the two vehicles, both formulations extended an inhibitory effect on UGT enzymes in vitro. Ultimately, these findings prove the ability of the formulation to diminish intestinal direct phase II metabolism which serves as an absorption obstacle for many of today's marketed drugs. Pro-nano lipospheres is a formulation that serves as a platform for the simultaneous delivery of the absorption enhancer and a required drug. The discrepancy found between the in vivo and in vitro models demonstrates that the in vitro method may not be sensitive enough to distinguish the difference between the formulations.
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- 2018
8. Activity, Reduced Toxicity, and Scale-Up Synthesis of Amphotericin B-Conjugated Polysaccharide
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Diana E. Ickowicz, Shimon Farber, Amnon Hoffman, Abraham J. Domb, Itzhack Polacheck, Sarah Kagan, and Edward Sionov
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Male ,Polymers and Plastics ,Reducing agent ,Bioengineering ,Galactans ,Reductive amination ,Biomaterials ,Mice ,Minimum inhibitory concentration ,Arabinogalactan ,Amphotericin B ,Candida albicans ,Chlorocebus aethiops ,parasitic diseases ,Materials Chemistry ,medicine ,Animals ,Vero Cells ,Mice, Inbred ICR ,Sheep ,biology ,urogenital system ,Chemistry ,Candidiasis ,technology, industry, and agriculture ,bacterial infections and mycoses ,biology.organism_classification ,Rats ,Rats, Inbred Lew ,Toxicity ,medicine.drug ,Nuclear chemistry ,Conjugate - Abstract
Amphotericin B (AMB) arabinogalactan (AG) conjugate was synthesized by the conjugation of AMB to oxidized AG by reductive amination. The conjugate was evaluated for in vitro antifungal activity and in vivo toxicity. Optimization of the conjugation process was investigated using large batches of 100 g, which are 20 times larger than previously reported for AMB-AG conjugation. The efficacy of AMB-AG conjugates was studied as a function of reaction conditions and time, aldehyde/reducing agent mole ratio, and purification procedure. The most potent AMB-AG conjugate having low minimal inhibitory concentration (MIC) and high maximal tolerated dose (MTD) was obtained following reduction with NaBH4 at 1:2 mol ratio (AG units/NaBH4) at 25 °C for 24 h. AMB-AG conjugate prepared under these conditions demonstrated MIC of 0.5 mg/L (equiv of AMB) in Candida albicans, and an MTD of 60 mg/kg (equiv of AMB) in mice, while AMB clinical formulation (Fungizone) demonstrated high toxicity (MTD = 3 mg/kg). These findings confirm the simplicity and reproducibility of the conjugation allowing this method to be applied on larger scale production.
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- 2014
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9. Improved Oral Bioavailability of BCS Class 2 Compounds by Self Nano-Emulsifying Drug Delivery Systems (SNEDDS): The Underlying Mechanisms for Amiodarone and Talinolol
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Irina Cherniakov, Yanir Aldouby, Abraham J. Domb, Amnon Hoffman, and Anna Elgart
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Male ,Adrenergic beta-Antagonists ,Cmax ,Amiodarone ,Biological Availability ,Pharmaceutical Science ,Pharmacology ,Intestinal absorption ,Propanolamines ,chemistry.chemical_compound ,First pass effect ,Drug Delivery Systems ,Pharmacokinetics ,Animals ,Cytochrome P-450 CYP3A ,Humans ,Pharmacology (medical) ,Enzyme Inhibitors ,Rats, Wistar ,Organic Chemistry ,Rats ,Bioavailability ,Intestinal Absorption ,chemistry ,Drug delivery ,Molecular Medicine ,Emulsions ,Caco-2 Cells ,Drug metabolism ,Biotechnology ,Talinolol - Abstract
Superior bioavailability of BCS Class 2 compounds incorporated into SNEDDS was previously reported. This study aims to elucidate the underlying mechanisms accountable for this phenomenon. SNEDDS of amiodarone (AM) and talinolol were developed. Pharmacokinetic parameters were assessed in vivo. Effect on intestinal permeability, P-gp efflux and toxicity was evaluated in vitro (Caco-2) and ex vivo (Ussing). Solubilization was assessed in vitro (Dynamic Lipolysis Model). Effect on intraenterocyte metabolism was evaluated using CYP3A4 microsomes. Oral administration of AM-SNEDDS and talinolol-SNEDDS resulted in higher and less variable AUC and Cmax. In vitro, higher talinolol-SNEDDS Papp indicated Pgp inhibition. Lipolysis of AM-SNEDDS resulted in higher AM concentration in the fraction available for absorption. Incubation of AM-SNEDDS with CYP3A4 indicated CYP inhibition. SNEDDS didn’t alter mannitol Papp and TEER. SNEDDS effect was transient. Multiple mechanisms are accountable for improved bioavailability and reduced variability of Class-2 compounds by SNEDDS: increased solubilization, reduced intraenterocyte metabolism and reduced P-gp efflux. SNEDDS effect is reversible and doesn’t cause intestinal tissue or cell damage. These comprehensive findings can be used for intelligent selection of drugs for which oral bioavailability will improve upon incorporation into SNEDDS, based on recognition of the drug’s absorption barriers and the ability of SNEDDS to overcome them.
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- 2013
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10. Transepithelial Transport of a Natural Cholinesterase Inhibitor, Huperzine A, along the Gastrointestinal Tract: the Role of Ionization on Absorption Mechanism
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Amnon Hoffman, Gregory Burshtein, Michael Friedman, and Sarit Greenberg
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Male ,Biological Transport, Active ,Pharmaceutical Science ,Pharmacology ,Permeability ,Intestinal absorption ,Analytical Chemistry ,Alkaloids ,Drug Discovery ,medicine ,Animals ,Humans ,Rats, Wistar ,Transcellular ,Huperzine A ,Ions ,Intestinal permeability ,Ussing chamber ,Chemistry ,Organic Chemistry ,Palmitoylcarnitine ,Biological Transport ,Membranes, Artificial ,Hydrogen-Ion Concentration ,Permeation ,medicine.disease ,Rats ,Gastrointestinal Tract ,Enterocytes ,Intestinal Absorption ,Complementary and alternative medicine ,Permeability (electromagnetism) ,Paracellular transport ,Molecular Medicine ,Cholinesterase Inhibitors ,Caco-2 Cells ,Sesquiterpenes ,Antipyrine ,Metoprolol ,medicine.drug - Abstract
During recent years there has been increasing interest in the Lycopodium alkaloid huperzine A as a potential therapeutic agent for neurodegenerative diseases. This study aimed to characterize huperzine A's permeability across the enterocyte barrier along the gastrointestinal tract with an emphasis on the effect of ionization on the drug absorption. Intestinal permeability of huperzine A was evaluated by in vitro Caco-2 and parallel artificial membrane permeation assay models and by the ex vivo Ussing chamber model. The permeability rate was strongly dependent on the degree of ionization and increased with elevation of the donor medium pH in all studied models. The transport of the unionized fraction was similar to the permeability of the markers for passive transcellular diffusion. Addition of the paracellular permeability modulator palmitoylcarnitine in the Caco-2 model led to significant enhancement in the permeability of the ionized huperzine A fraction. No evidence of active transport of huperzine A was detected in this study. The Ussing chamber model experiments showed similar drug permeability along the entire rat intestine. In conclusion, huperzine A permeates the intestinal border mainly by passive transcellular diffusion whereas some fraction, dependent on the degree of huperzine A ionization, is absorbed by the paracellular route. Huperzine A's permeability characteristics pave the way to the development of its oral extended release dosage form. The specific population of the potential users of huperzine A and the high potency of this molecule support the rationale for such a delivery.
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- 2013
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11. Antihyperglycaemic activity of 2,4:3,5-dibenzylidene-D-xylose-diethyl dithioacetal in diabetic mice
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Olga Viskind, Guy Cohen, Amnon Hoffman, Erol Cerasi, Shlomo Sasson, Anna Elgart, Arie Gruzman, Eyal Mishani, Hana Billauer, and Sharon Dotan
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AMPK ,Blood Glucose ,Male ,medicine.medical_specialty ,Glucose uptake ,Muscle Fibers, Skeletal ,Adipose tissue ,Type 2 diabetes ,Tritium ,Benzylidene Compounds ,antihyperglycaemic drugs ,Diabetes Mellitus, Experimental ,Mice ,Acetals ,AMP-Activated Protein Kinase Kinases ,In vivo ,Diabetes mellitus ,Internal medicine ,medicine ,Animals ,Hypoglycemic Agents ,Rats, Wistar ,Muscle, Skeletal ,Cells, Cultured ,KKAy mice ,Type 1 diabetes ,Glucose Transporter Type 4 ,diabetes ,Chemistry ,Glucose transporter ,glucose transport ,Biological Transport ,Heart ,Cell Biology ,Original Articles ,medicine.disease ,Bridged Bicyclo Compounds, Heterocyclic ,Rats ,Mice, Inbred C57BL ,Endocrinology ,Diabetes Mellitus, Type 1 ,Diabetes Mellitus, Type 2 ,Thioglycosides ,Molecular Medicine ,Protein Kinases ,D-xylose derivatives ,hyperglycaemia - Abstract
We have recently generated lipophilic D-xylose derivatives that increase the rate of glucose uptake in cultured skeletal muscle cells in an AMP-activated protein kinase (AMPK)-dependent manner. The derivative 2,4:3,5-dibenzylidene-D-xylose-diethyl dithioacetal (EH-36) stimulated the rate of glucose transport by increasing the abundance of glucose transporter-4 in the plasma membrane of cultured myotubes. The present study aimed at investigating potential antihyperglycaemic effects of EH-36 in animal models of diabetes. Two animal models were treated subcutaneously with EH-36: streptozotocin-induced diabetes in C57BL/6 mice (a model of insulin-deficient type 1 diabetes), and spontaneously diabetic KKAy mice (Kuo Kondo rats carrying the A(y) yellow obese gene; insulin-resistant type 2 diabetes). The in vivo biodistribution of glucose in control and treated mice was followed with the glucose analogue 2-deoxy-2-[(18) F]-D-glucose; the rate of glucose uptake in excised soleus muscles was measured with [(3) H]-2-deoxy-D-glucose. Pharmacokinetic parameters were determined by non-compartmental analysis of the in vivo data. The effective blood EH-36 concentration in treated animals was 2 μM. It reduced significantly the blood glucose levels in both types of diabetic mice and also corrected the typical compensatory hyperinsulinaemia of KKAy mice. EH-36 markedly increased glucose transport in vivo into skeletal muscle and heart, but not to adipose tissue. This stimulatory effect was mediated by Thr(172) -phosphorylation in AMPK. Biochemical tests in treated animals and acute toxicological examinations showed that EH-36 was well tolerated and not toxic to the mice. These findings indicate that EH-36 is a promising prototype molecule for the development of novel antidiabetic drugs.
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- 2012
12. Orally Active, Antimetastatic, Nontoxic Diphenyl Ether-Derived Carbamoylphosphonate Matrix Metalloproteinase Inhibitors
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Amnon Hoffman, Shlomo Nedvetzki, Olga Vaksman, Tamir Chernilovsky, Reuven Reich, Eli Breuer, Julia Frant, and Ainelly Veerendhar
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Stereochemistry ,Matrix metalloproteinase inhibitor ,Melanoma, Experimental ,Organophosphonates ,Administration, Oral ,Antineoplastic Agents ,Matrix Metalloproteinase Inhibitors ,Pharmacology ,Matrix metalloproteinase ,Biochemistry ,Mice ,chemistry.chemical_compound ,Pharmacokinetics ,Cyclohexanes ,Drug Discovery ,Animals ,Protein Isoforms ,Potency ,Enzyme Inhibitors ,General Pharmacology, Toxicology and Pharmaceutics ,chemistry.chemical_classification ,Volume of distribution ,Chemistry ,Phenyl Ethers ,Organic Chemistry ,Diphenyl ether ,Matrix Metalloproteinases ,Rats ,Bioavailability ,Enzyme ,Molecular Medicine ,Cobamides - Abstract
Seven 4-phenoxybenzenesulfonamidopolymethylene carbamoylphosphonates (CPOs) bearing two to eight methylene units in the polymethylene chain were synthesized and evaluated as matrix metalloproteinase (MMP) inhibitors. The five lowest homologues [(CH₂)₂-₆] are selective MMP-2 inhibitors, whereas the two with the longest linkers [(CH₂)₇,₈] lack inhibitory activity. The most potent homologues are those with (CH₂)₅,₆; these two were evaluated for antimetastatic activity in a murine melanoma model and showed good potency both by oral and intraperitoneal administration without any toxic--including musculoskeletal--side effects. In contrast to the previously reported cis-ACCP, which was shown to inhibit MMP-2 for ∼30 min, the new compounds inhibit MMP activity for the duration of measurement, lasting several hours. Pharmacokinetic evaluation revealed, on the one hand, low oral bioavailability; on the other hand, a relatively large calculated volume of distribution, consistent with the observed reversible absorption of CPO 5 to hydroxyapatite, as a model for bone.
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- 2011
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13. The Effect of Multiple N-Methylation on Intestinal Permeability of Cyclic Hexapeptides
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Amnon Hoffman, Sarit Greenberg, Horst Kessler, Florian Opperer, Chaim Gilon, Burkhardt Laufer, Jayanta Chatterjee, and Oded Ovadia
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Cell Membrane Permeability ,Synthetic membrane ,Pharmaceutical Science ,Peptide ,Methylation ,Peptides, Cyclic ,chemistry.chemical_compound ,Drug Discovery ,medicine ,Peptide synthesis ,Animals ,Humans ,Transcellular ,chemistry.chemical_classification ,Intestinal permeability ,Facilitated diffusion ,Chemistry ,Biological Transport ,medicine.disease ,In vitro ,Rats ,Intestines ,Intestinal Absorption ,Biochemistry ,Cyclization ,Permeability (electromagnetism) ,Molecular Medicine ,Caco-2 Cells ,Oligopeptides - Abstract
Recent progress in peptide synthesis simplified the synthesis of multiple N-methylation of peptides. To evaluate how multiple N-methylation affects the bioavailability of peptides, a poly alanine cyclic hexapeptide library (n = 54), varying in the number of N-methyl (N-Me) groups (1-5 groups) and their position, was synthesized. The peptides were evaluated for their intestinal permeability in vitro using the Caco-2 model. Further evaluation of the transport route of chosen analogues was performed using rat excised viable intestinal tissue, a novel colorimetric liposomal model and the parallel artificial membrane permeability assay (PAMPA). While most members were found to have poor permeability (permeability coefficient, P(app)1 x 10⁻⁶ cm/s, lower than mannitol, the marker for paracellular permeability), 10 analogues were found to have high Caco-2 permeability, (P(app)1 x 10⁻⁵ cm/s, similar to testosterone, a marker of transcellular permeability). No correlation was found between the number of N-methylated groups and the enhanced permeability. However, 9/10 permeable peptides in the Caco-2 model included an N-Me placed adjacently to the D-Ala position. While the exact transport route was not fully characterized, the data suggests a facilitated diffusion. It can be concluded that multiple N-methylation of peptides may improve intestinal permeability, and therefore can be utilized in the design of orally available peptide-based therapeutics.
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- 2011
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14. Polysaccharide Pharmacokinetics: Amphotericin B Arabinogalactan Conjugate—A Drug Delivery System or a New Pharmaceutical Entity?
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Abraham J. Domb, Shimon Farber, Amnon Hoffman, Itzhack Polacheck, and Anna Elgart
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Male ,Polymers and Plastics ,animal diseases ,Bioengineering ,Galactans ,Biomaterials ,Drug Delivery Systems ,Pharmacokinetics ,Polysaccharides ,Arabinogalactan ,Amphotericin B ,Spectroscopy, Fourier Transform Infrared ,parasitic diseases ,Materials Chemistry ,Animals ,Distribution (pharmacology) ,Rats, Wistar ,Chromatography, High Pressure Liquid ,urogenital system ,Chemistry ,technology, industry, and agriculture ,Prodrug ,bacterial infections and mycoses ,Rats ,Biochemistry ,Pharmacodynamics ,Drug delivery ,Spectrophotometry, Ultraviolet ,Drug carrier ,Half-Life ,Conjugate - Abstract
Conjugation of poorly soluble drugs to polysaccharides affects their solubility, pharmacokinetics (PK), and pharmacodynamics. The need for amphotericin B (AmB) analog with improved solubility and reduced toxicity is immense. Conjugation of AmB to arabinogalactan (AG) produced a highly soluble AmB-AG conjugate, with high and low molecular weight (H-M(w) and L-M(w)) fractions. Its similar antifungal activity to AmB poses the question whether AmB-AG is a prodrug of AmB or a novel pharmaceutical entity. We compared the PK of AmB-AG and AmB in rats. Upon AmB-AG administration, no free AmB was released. The half-lives and the volumes of distribution of AmB, H-M(w) and L-M(w) were 10.9, 8.8, and 1.5 h and 1630, 217, and 133 mL/kg, respectively. We conclude that PK of small molecules conjugated to polysaccharides is mainly dictated by the macromolecular moiety and shows molecular weight dependency. Our findings define AmB-AG as a novel pharmaceutical entity with high clinical potential.
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- 2010
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15. The Solubility–Permeability Interplay in Using Cyclodextrins as Pharmaceutical Solubilizers: Mechanistic Modeling and Application to Progesterone
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Jonathan M. Miller, Gordon L. Amidon, Gregory E. Amidon, Amnon Hoffman, and Arik Dahan
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Male ,Cell Membrane Permeability ,Membrane permeability ,Pharmaceutical Science ,Beta-Cyclodextrins ,Permeability ,Intestinal absorption ,Dosage form ,Absorption ,Excipients ,Random Allocation ,Animals ,Humans ,Rats, Wistar ,Solubility ,Progesterone ,Dosage Forms ,chemistry.chemical_classification ,Cyclodextrins ,Chromatography ,Cyclodextrin ,beta-Cyclodextrins ,Water ,2-Hydroxypropyl-beta-cyclodextrin ,Rats ,Membrane ,Pharmaceutical Preparations ,chemistry ,Biophysics ,Relative permeability - Abstract
A quasi-equilibrium mass transport analysis has been developed to quantitatively explain the solubility-permeability interplay that exists when using cyclodextrins as pharmaceutical solubilizers. The model considers the effects of cyclodextrins on the membrane permeability (P(m)) as well as the unstirred water layer (UWL) permeability (P(aq)), to predict the overall effective permeability (P(eff)) dependence on cyclodextrin concentration (C(CD)). The analysis reveals that: (1) UWL permeability markedly increases with increasing C(CD) since the effective UWL thickness quickly decreases with increasing C(CD); (2) membrane permeability decreases with increasing C(CD), as a result of the decrease in the free fraction of drug; and (3) since P(aq) increases and P(m) decreases with increasing C(CD), the UWL is effectively eliminated and the overall P(eff) tends toward membrane control, that is, P(eff) approximately P(m) above a critical C(CD). Application of this transport model enabled excellent quantitative prediction of progesterone P(eff) as a function of HP beta CD concentrations in PAMPA assay, Caco-2 transepithelial studies, and in situ rat jejunal-perfusion model. This work demonstrates that when using cyclodextrins as pharmaceutical solubilizers, a trade-off exists between solubility increase and permeability decrease that must not be overlooked; the transport model presented here can aid in striking the appropriate solubility-permeability balance in order to achieve optimal overall absorption.
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- 2010
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16. The Role of P-Glycoprotein in Intestinal Transport versus the BBB Transport of Tetraphenylphosphonium
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Amnon Hoffman, Hila Zohar-Kontante, Lola Weiss, Igal Madar, Sara Eyal, and Avi Swed
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Pharmaceutical Science ,Cyclosporins ,In Vitro Techniques ,Pharmacology ,Mice ,Onium Compounds ,Organophosphorus Compounds ,In vivo ,Cyclosporin a ,Drug Discovery ,ATP Binding Cassette Transporter, Subfamily G, Member 2 ,Animals ,Humans ,ATP Binding Cassette Transporter, Subfamily B, Member 1 ,Enzyme Inhibitors ,Intestinal Mucosa ,P-glycoprotein ,Mice, Knockout ,biology ,Uncoupling Agents ,Chemistry ,Multidrug resistance-associated protein 2 ,Biological Transport ,Calcium Channel Blockers ,Multidrug Resistance-Associated Protein 2 ,In vitro ,Rats ,Verapamil ,Blood-Brain Barrier ,Knockout mouse ,Cyclosporine ,Quinolines ,biology.protein ,Leukotriene Antagonists ,Molecular Medicine ,ATP-Binding Cassette Transporters ,Female ,Efflux ,Caco-2 Cells ,Multidrug Resistance-Associated Proteins ,Propionates ,2,4-Dinitrophenol ,Ex vivo - Abstract
Tetraphenylphosphonium (TPP), a phosphonium cation, is a promising means for tumor imaging. A major contributor to the pharmacokinetics of phosphonium cations is the efflux transporter P-glycoprotein (P-gp). For this application it is important to ascertain the influence of the multidrug resistance system on TPP. Therefore, our aim was to characterize the interaction of TPP with P-gp, in vitro and in in vivo models. P-gp-mediated transport of [3H]-TPP was assessed in Caco-2 cells and ex vivo in rat intestinal wall by the use of a diffusion cell system. The distribution of [3H]-TPP across the blood-brain barrier (BBB) was studied in rats and mice treated with P-gp modulators and in Mdr-1a/b((-/-)) knockout mice. The in vitro permeability coefficient of basolateral-to-apical transfer (PappB-A) of [3H]-TPP was 8-fold greater than apical-to-basolateral (PappA-B) coefficient, indicative of net mucosal secretion. A concentration dependent decrease of this secretion was obtained by the P-gp substrate verapamil, while no effect was evident by the MRP2 inhibitor MK-571 and the BCRP inhibitor FTC. [3H]-TPP transfer across rat jejunum wall was directional and concentration-dependent. 2,4-Dinitrophenol, cyclosporin A (CsA), verapamil and PSC-833 enhanced A-B transport of TPP 3.6-fold, 4-fold, 4.6-fold and 5.3-fold respectively. Likewise, PappA-B of [3H]-TPP was 5-fold greater in P-gp knockout mice than in controls. In vivo, PSC-833, P-gp inhibitor, significantly increased the uptake of [3H]-TPP in the liver, heart, small intestine and the lungs but not the brain. Similar results were obtained in P-gp knockout mice. Our study demonstrates that P-gp mediates TPP efflux in vitro and in vivo; however, the consistently poor BBB permeation of TPP in all in vivo studies including P-gp knockout animals indicates that it is most likely mediated by other mechanisms. These findings are important for optimized clinical application of TPP as an imaging agent in cancer.
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- 2009
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17. Effect of mode of administration on guaifenesin pharmacokinetics and expectorant action in the rat model
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Eran Lavy, Leonid Kagan, and Amnon Hoffman
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Male ,Pulmonary and Respiratory Medicine ,Guaifenesin ,Respiratory System ,Stimulation ,Pharmacology ,Phenolsulfonphthalein ,Bolus (medicine) ,Pharmacokinetics ,medicine ,Animals ,Computer Simulation ,Pharmacology (medical) ,Rats, Wistar ,Coloring Agents ,Expectorant ,Intubation, Gastrointestinal ,Expectorants ,Models, Statistical ,Dose-Response Relationship, Drug ,Vagovagal reflex ,business.industry ,Biochemistry (medical) ,Rats ,medicine.anatomical_structure ,Mechanism of action ,Data Interpretation, Statistical ,Anesthesia ,Injections, Intravenous ,medicine.symptom ,business ,Algorithms ,Respiratory tract ,medicine.drug - Abstract
Guaifenesin is a very commonly used and prescribed oral expectorant drug. However, its mechanism of action is not completely elucidated and the available information is limited. The purpose was to evaluate whether guaifenesin action on respiratory tract secretion is mediated through a reflex stimulation of the gastric mucosa or by the systemic exposure due to the absorption of the drug to the blood circulation.Guaifenesin was administered to rats by various routes: intravenous bolus, oral gavage, and gastric, jejunal or cecal infusions (through surgically implanted catheters). Phenol red respiratory tract secretion (after intraperitoneal or intravenous injection) was used as a marker for degree of expectorant action. Administration of saline by gavage was used as control.Respiratory secretion following oral bolus was approximately 2-fold higher (p0.05) than that of control. Following IV administration the increase of respiratory secretion did not occur despite the fact that systemic exposure to guaifenesin was 1.5-fold higher than following oral administration. The abdominal surgery was found to eliminate the effect of guaifenesin although it did not change systemic absorption. Guaifenesin was equally absorbed from all parts of the gastrointestinal tract.It was demonstrated that expectorant action of guaifenesin is mediated by stimulation of the gastrointestinal tract and not by the systemic exposure to the drug.
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- 2009
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18. Novel <scp>d</scp>-Xylose Derivatives Stimulate Muscle Glucose Uptake by Activating AMP-Activated Protein Kinase α
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Moriya Ben Yakir, Daphna Sandovski, Anna Elgart, Guy Cohen, Shlomo Sasson, Amnon Hoffman, Erol Cerasi, Ofer Shamni, Arie Gruzman, Yehoshua Katzhendler, and Evgenia Alpert
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Glucose uptake ,medicine.medical_treatment ,AMP-Activated Protein Kinases ,Models, Biological ,Structure-Activity Relationship ,AMP-activated protein kinase ,Drug Discovery ,medicine ,Animals ,Humans ,Protein kinase A ,Hexose transport ,Glucose Transporter Type 4 ,Xylose ,biology ,Chemistry ,Muscles ,Insulin ,Glucose transporter ,Rats ,Enzyme Activation ,Glucose ,Diabetes Mellitus, Type 2 ,Models, Chemical ,Mechanism of action ,Biochemistry ,Drug Design ,biology.protein ,Molecular Medicine ,medicine.symptom ,Signal transduction - Abstract
Type 2 diabetes mellitus has reached epidemic proportions; therefore, the search for novel antihyperglycemic drugs is intense. We have discovered that D-xylose increases the rate of glucose transport in a non-insulin-dependent manner in rat and human myotubes in vitro. Due to the unfavorable pharmacokinetic properties of D-xylose we aimed at synthesizing active derivatives with improved parameters. Quantitative structure-activity relationship analysis identified critical hydroxyl groups in D-xylose. These data were used to synthesize various hydrophobic derivatives of D-xylose of which compound 19 the was most potent compound in stimulating the rate of hexose transport by increasing the abundance of glucose transporter-4 in the plasma membrane of myotubes. This effect resulted from the activation of AMP-activated protein kinase without recruiting the insulin transduction mechanism. These results show that lipophilic D-xylose derivatives may serve as prototype molecules for the development of novel antihyperglycemic drugs for the treatment of diabetes.
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- 2008
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19. Carbamoylphosphonate Matrix Metalloproteinase Inhibitors 6: cis-2-Aminocyclohexylcarbamoylphosphonic Acid, A Novel Orally Active Antimetastatic Matrix Metalloproteinase-2 Selective Inhibitor—Synthesis and Pharmacodynamic and Pharmacokinetic Analysis
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Reuven Reich, Bashir Qadri, Julia Frant, Rivka Hadar, Yiffat Katz, Eli Breuer, Amnon Hoffman, and Sudhakar R. Bhusare
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Male ,Matrix metalloproteinase inhibitor ,Melanoma, Experimental ,Organophosphonates ,Biological Availability ,Antineoplastic Agents ,Mice, SCID ,In Vitro Techniques ,Matrix Metalloproteinase Inhibitors ,Pharmacology ,Mice ,Structure-Activity Relationship ,Pharmacokinetics ,Cyclohexanes ,In vivo ,Oral administration ,Cell Line, Tumor ,Antimetastatic Agent ,Drug Discovery ,Extracellular fluid ,Toxicity Tests, Acute ,Animals ,Humans ,Neoplasm Invasiveness ,Tissue Distribution ,Neoplasm Metastasis ,biology ,Chemistry ,Prostatic Neoplasms ,Rats ,Bioavailability ,Mice, Inbred C57BL ,Intestinal Absorption ,Enzyme inhibitor ,biology.protein ,Molecular Medicine ,Female ,Cobamides ,Neoplasm Transplantation - Abstract
cis-2-Aminocyclohexylcarbamoylphosphonic acid ( cis-ACCP) was evaluated in vitro and in two in vivo cancer metastasis models. It reduced metastasis formation in mice by approximately 90% when administered by a repetitive once daily dosing regimen of 50 mg/kg via oral or intraperitoneal routes and was nontoxic up to 500 mg/kg, following intraperitoneal administration daily for two weeks. Pharmacokinetic investigation of cis-ACCP in rats revealed distribution restricted into the extracellular fluid, which is the site of action for the antimetastatic activity and rapid elimination ( t 1/2 approximately 19 min) from blood. Sustained and prolonged absorption ( t 1/2 approximately 126 min) occurred via paracellular mechanism along the small and large intestine with overall bioavailability of 0.3%. The in vivo concentrations of cis-ACCP in the blood in rats was above the minimal concentration for antimetastatic/MMP-inhibitory activity, thus explaining the prolonged action following once daily administration. Finally, 84% of the intravenously administered cis-ACCP to rats was excreted intact in the urine.
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- 2008
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20. The effect of general anesthesia on the intestinal lymphatic transport of lipophilic drugs: Comparison between anesthetized and freely moving conscious rat models
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Nathan Ezov, Amnon Hoffman, Avivit Mendelman, Arik Dahan, and Sofia Amsili
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Male ,Xylazine ,Vitamin ,Time Factors ,Consciousness ,Pharmaceutical Science ,Absorption (skin) ,Anesthesia, General ,Pharmacology ,Lymphatic System ,chemistry.chemical_compound ,Pharmacokinetics ,Oral administration ,Vitamin D and neurology ,Animals ,Medicine ,Intestinal Mucosa ,Rats, Wistar ,Intubation, Gastrointestinal ,Cholecalciferol ,Anesthetics, Dissociative ,business.industry ,Biological Transport ,Rats ,Intestines ,Lymphatic system ,chemistry ,Anesthesia ,Models, Animal ,Ketamine ,Lymph ,business ,Adrenergic alpha-Agonists ,Drug metabolism - Abstract
The purpose of this study was to evaluate the impact of general anesthesia on the lymphatic transport of orally administered drugs. Vitamin D 3 (0.5 mg/kg), a model lipophilic molecule with significant lymphatic transport, was administered to anesthetized rats in close proximity to the lymphatic cannulation procedure. The lymphatic and non-lymphatic absorption of the vitamin in this experimental model was compared to lymph-duct cannulated freely moving conscious rats. The amounts of vitamin D 3 transported via the lymph in the anesthetized animals throughout the time frame of this experimental model (8 h) were 25% lower as compared to the conscious animals, but showed similar absorption kinetics. However, the duration of the anesthesia is limited and thus failed to produce the complete picture of the absorption process. The cumulative percent of the vitamin dose that was recovered in the lymph as well as the vitamin plasma AUC values were both 25% lower in the anesthetized animals as compared to the conscious animals. Hence, the anesthesia did not influence the proportion of the vitamin fraction absorbed via the different pathways. The lymph flow rate was significantly decreased by the anesthesia (threefold), however, higher lymph vitamin concentrations in these animals led to lower differences in the vitamin lymphatic transport (25%) between the models. In conclusion, the anesthetized rat model is suitable for approximating the lymphatic transport. However, the conscious rat model is still required in order to have a more precise and complete measurement of lymphatic transport.
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- 2007
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21. Implications on Emergence of Antimicrobial Resistance as a Critical Aspect in the Design of Oral Sustained Release Delivery Systems of Antimicrobials
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Ehud Horwitz, Amnon Hoffman, Mervyn Shapiro, Ronit Cohen-Poradosu, Shmuel Hess, Anna Edelberg, and Lilach Kleinberg
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Male ,Drug ,Time Factors ,Colon ,medicine.drug_class ,Chemistry, Pharmaceutical ,Drug Compounding ,media_common.quotation_subject ,Antibiotics ,Colony Count, Microbial ,Administration, Oral ,Pharmaceutical Science ,Ileum ,Pharmacology ,beta-Lactamases ,Dosage form ,Feces ,Antibiotic resistance ,Anti-Infective Agents ,Oral administration ,Drug Resistance, Bacterial ,Animals ,Medicine ,Pharmacology (medical) ,Intestinal Mucosa ,Rats, Wistar ,Gastrointestinal Transit ,Intubation, Gastrointestinal ,media_common ,business.industry ,Organic Chemistry ,Amoxicillin ,Antimicrobial ,Rats ,Intestines ,medicine.anatomical_structure ,Intestinal Absorption ,Delayed-Action Preparations ,Drug Design ,Molecular Medicine ,business ,Biotechnology ,medicine.drug - Abstract
To assess the effects of the unabsorbed fraction of an orally administered antimicrobial drug which enters the colon on the emergence of resistance among the natural microflora, a phenomenon largely overlooked so far despite its clinical importance, especially when sustained release formulations are used.Effects of an orally administered model beta-lactam antibiotic (amoxicillin) on emergence of resistant bacteria were assessed using a microbiological assay for qualitative and quantitative determination of resistant bacteria in fecal samples of rats following gastric administration of the drug to rats for 4 consecutive days. Time- and site-controlled administration of a beta-lactamase to the rat colon was assessed as a potential strategy for prevention the emergence of resistant bacteria following oral administration of incompletely absorbed antimicrobials.Emergence of resistant bacteria was demonstrated following oral administration of amoxicillin to rats, whereas de-activation of the beta-lactam prior to entering the colon, by infusion of a beta-lactamase into the lower ileum, was shown to prevent the emergence of resistant colonic bacteria.This study illustrates the need to consider the emergence of antimicrobial resistance as a goal equally important to microbiological and clinical cure, when designing oral sustained-release delivery systems of antimicrobial drugs.
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- 2007
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22. Effect of a high-fat meal on absorption and disposition of lipophilic compounds: The importance of degree of association with triglyceride-rich lipoproteins
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Amnon Hoffman and Pavel Gershkovich
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Male ,Lipoproteins ,Administration, Oral ,Pharmaceutical Science ,Lipoproteins, VLDL ,Pharmacology ,Chlorobenzenes ,DDT ,Food-Drug Interactions ,chemistry.chemical_compound ,Oral administration ,Chylomicrons ,Hyperlipidemia ,medicine ,Animals ,Plant Oils ,Rats, Wistar ,Triglycerides ,Volume of distribution ,Diazepam ,Triglyceride ,Chemistry ,digestive, oral, and skin physiology ,Postprandial Period ,medicine.disease ,Dietary Fats ,Rats ,Bioavailability ,Postprandial ,Intestinal Absorption ,Area Under Curve ,Injections, Intravenous ,Lymph ,Peanut Oil ,Protein Binding ,Chylomicron ,Lipoprotein - Abstract
Following a high-fat meal, triglyceride-rich lipoproteins (TRL) are assembled in the gut and absorbed via the lymph into the blood circulation, producing a temporal hyperlipidemia. The purpose of this study is to verify the hypothesis that this transient acute postprandial hyperlipidemia affects the pharmacokinetics of lipophilic drugs on both absorption and disposition levels by the same underlying mechanism, namely the association of active lipophilic compounds with TRL in the plasma (disposition) or within the enterocyte (lymphatic transport). This concept was assessed in rats using two model compounds, DDT with high affinity to chylomicrons and diazepam which does not bind to chylomicrons. Oral administration of peanut oil significantly increased the AUC of plasma DDT concentrations following its IV bolus administration in comparison to a water treated group. On the other hand, the AUC of diazepam following IV bolus administration was the same in oil and water treated rats. While DDT is known to have significant lymphatic bioavailability, diazepam has negligible intestinal lymphatic transport (0.014+/-0.004% of a given dose). In conclusion, lipophilic molecules that bind extensively to TRL will be prone to both intestinal lymphatic transport and to post-absorptive changes in disposition (decrease in clearance and volume of distribution) following a high-fat meal.
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- 2007
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23. Different impacts of intestinal lymphatic transport on the oral bioavailability of structurally similar synthetic lipophilic cannabinoids: Dexanabinol and PRS-211,220
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Avihai Yacovan, Pavel Gershkovich, Shimon Amselem, Amnon Hoffman, and Bashir Qadri
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Male ,Administration, Oral ,Biological Availability ,Pharmaceutical Science ,Absorption (skin) ,Pharmacology ,Lymphatic System ,Structure-Activity Relationship ,chemistry.chemical_compound ,Pharmacokinetics ,Oral administration ,Animals ,Plant Oils ,Dronabinol ,Intestinal Mucosa ,Rats, Wistar ,Dexanabinol ,Dose-Response Relationship, Drug ,Molecular Structure ,Cannabinoids ,Chemistry ,Imidazoles ,Biological Transport ,Rats ,Bioavailability ,Neuroprotective Agents ,Lymphatic system ,Area Under Curve ,Injections, Intravenous ,Lipophilicity ,Corn Oil ,Peanut Oil ,Half-Life ,Chylomicron - Abstract
The aim of this article was to investigate the role of intestinal lymphatic transport in the oral bioavailability of two structurally similar synthetic lipophilic cannabinoids: dexanabinol and PRS-211,220. For this purpose, the long chain triglyceride (LCT) solubility and affinity to chylomicrons ex vivo of both cannabinoids were evaluated. Their oral bioavailability was assessed in rats following administration in a lipid-free and a LCT-based formulation. The intestinal lymphatic transport of these two molecules was also directly measured in a freely moving rat model. LCT solubility of dexanabinol and PRS-211,220 was 7.9 ± 0.2 and 95.8 ± 5.3 mg/g, respectively. The uptake by chylomicrons was moderate (31.6 ± 5.2%) and high (66.1 ± 2.4%), respectively. The bioavailability of dexanabinol (37%) was not affected by LCT solution, whereas administration of PRS-211,220 in LCT improved the absolute oral bioavailability three-fold (from 13 to 35%) in comparison to the lipid-free formulation. The intestinal lymphatic transport of dexanabinol and PRS-211,220 was 7.5 ± 0.8 and 60.7 ± 6.8% of the absorbed dose, respectively. In conclusion, despite structural similarity and similar lipophilicity, dexanabinol and PRS-211,220 exhibited a very diverse pattern of oral absorption, and the lymphatic system played quite a different role in the oral bioavailability of these molecules. The low lymphatic transport of dexanabinol is likely driven by relatively lower affinity to chylomicrons and lower LCT solubility.
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- 2007
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24. The effect of a high-fat meal on the pharmacodynamics of a model lipophilic compound that binds extensively to triglyceride-rich lipoproteins
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Daniel Shtainer, Pavel Gershkovich, and Amnon Hoffman
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Male ,Very low-density lipoprotein ,Administration, Oral ,Facial Muscles ,Pharmaceutical Science ,Hyperlipidemias ,Pharmacology ,DDT ,Food-Drug Interactions ,chemistry.chemical_compound ,Pharmacokinetics ,Oral administration ,Chylomicrons ,Tremor ,Hyperlipidemia ,medicine ,Animals ,Plant Oils ,Rats, Wistar ,Infusions, Intravenous ,Triglycerides ,Triglyceride ,Chemistry ,Brain ,Postprandial Period ,medicine.disease ,Dietary Fats ,Rats ,Postprandial ,Peanut Oil ,Protein Binding ,Lipoprotein ,Chylomicron - Abstract
A high-fat meal induces transient hyperlipidemia characterized by elevated triglyceride-rich lipoproteins (TRL) which are composed mainly of chylomicrons. The purpose of this work was to investigate the effect of this transient hyperlipidemia on the pharmacodynamics of lipophilic drugs, using DDT as a model compound since it binds extensively to TRL and has a distinct neurotoxic effect. The postprandial hyperlipidemia in rats was induced by oral administration of peanut oil and was monitored by measurement of plasma triglyceride levels. The control group received water instead of oil. The rats received a continuous intravenous infusion of DDT (10 mg/h) until onset of a predefined pharmacodynamic endpoint (facial muscle tremor). Plasma and brain samples were then obtained and assayed for DDT. Rats with postprandial hyperlipidemia required higher dose of DDT to induce onset of facial muscle tremor. At the pharmacodynamic endpoint, oil treated rats had significantly higher concentrations of DDT in plasma and in the chylomicron fraction, but DDT brain concentrations were the same in both groups. In conclusion, a high-fat meal induces postprandial hyperlipidemia that may significantly alter the pharmacological profile of lipophilic compounds that bind to TRL. This is due to alteration of the distribution characteristics of the lipophilic compound through its association with postprandial lipoproteins. However, this pharmacokinetic phenomenon did not affect the concentration-effect relationship at the site of action in the brain.
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- 2007
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25. Mode of Administration-Dependent Brain Uptake of Indomethacin: Sustained Systemic Input Increases Brain Influx
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Amnon Hoffman and Arik Dahan
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Male ,Drug ,media_common.quotation_subject ,Indomethacin ,Administration, Oral ,Pharmaceutical Science ,Pharmacology ,Indometacin ,Animals ,Medicine ,Rats, Wistar ,Infusions, Intravenous ,Adverse effect ,media_common ,biology ,business.industry ,Brain ,Prodrug ,Controlled release ,Rats ,Enzyme inhibitor ,Delayed-Action Preparations ,Tocolytic ,Pharmacodynamics ,biology.protein ,business ,medicine.drug - Abstract
Nonsteroidal anti-inflammatory drugs, including indomethacin, have been found in both epidemiological and clinical studies to reduce the prevalence and severity of Alzheimer's disease. However, long-term use of indomethacin is limited by significant gastrointestinal and renal toxicities. An indomethacin prodrug that delivers low and continuous blood levels of the drug showed a superior safety profile and similar efficacy in comparison to an equivalent dose of free indomethacin because of limited systemic exposure and preferred brain uptake. The purpose of the present investigation was to evaluate whether sustained systemic input causes an increased brain influx in comparison to rapid input of the drug. Oral indomethacin, indomethacin prodrug, or intravenous indomethacin infusion was administered to rats. The infusion was designed to mimic the plasma indomethacin levels resulting from the prodrug. The resultant blood levels and brain indomethacin uptake were evaluated. The brain indomethacin concentrations 8 h following indomethacin administration were 0.45, 0.3, and 0.31 microg/g after the oral indomethacin, oral prodrug, and intravenous infusion, respectively. The corresponding plasma concentrations were 14.1, 4.1, and 4 microg/ml. Therefore, brain versus plasma indomethacin level ratios were 2.5-fold higher after slow systemic input of indomethacin in comparison to rapid drug input. In conclusion, indomethacin brain uptake was found to be mode of administration-dependent, and a sustained input function increases the drug brain uptake. Thus, these unique results indicate that an appropriate indomethacin controlled release delivery system may induce the desirable brain-related pharmacodynamic effects, while avoiding the concentration-dependent adverse effects. These findings may contribute to improved therapy in Alzheimer's disease.
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- 2006
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26. Use of a Dynamic in Vitro Lipolysis Model to Rationalize Oral Formulation Development for Poor Water Soluble Drugs: Correlation with in Vivo Data and the Relationship to Intra-Enterocyte Processes in Rats
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Amnon Hoffman and Arik Dahan
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Male ,Vitamin ,Chemistry, Pharmaceutical ,Lipolysis ,Administration, Oral ,Biological Availability ,Pharmaceutical Science ,Pharmacology ,Mass Spectrometry ,Intestinal absorption ,Lymphatic System ,chemistry.chemical_compound ,Pharmacokinetics ,Oral administration ,In vivo ,Chylomicrons ,Animals ,Pharmacology (medical) ,Cycloheximide ,Rats, Wistar ,Progesterone ,Triglycerides ,Cholecalciferol ,Protein Synthesis Inhibitors ,Chemistry ,Organic Chemistry ,Rats ,Bioavailability ,Enterocytes ,Models, Chemical ,Solubility ,Molecular Medicine ,Drug metabolism ,Half-Life ,Biotechnology - Abstract
To examine the correlation between the in vitro solubilization process of lipophilic compounds from different lipid solutions and the corresponding in vivo oral bioavailability data. In particular, to assess the influence of intra-enterocyte processes (metabolism and lymphatic absorption) on this correlation. The dissolution of progesterone and vitamin D3 in long (LCT), medium (MCT) and short (SCT) chain triglyceride solutions were tested in a dynamic in vitro lipolysis model. The absolute oral bioavailability of the drugs from the tested formulations was investigated in rats. Vitamin D3 bioavailability was also examined following lymphatic transport blockage induced by cycloheximide (3 mg/kg). The dynamic in vitro lipolysis experiments indicated a rank order of MCT > LCT > SCT for both progesterone and vitamin D3. The bioavailability of progesterone correlated with the in vitro data, despite its significant pre-systemic metabolism. For vitamin D3, an in vivo performance rank order of LCT > MCT > SCT was obtained. However, when the lymphatic transport was blocked the bioavailability of vitamin D3 correlated with in vitro data. The in vitro lipolysis model is useful for optimization of oral lipid formulations even in the case of pre-systemic metabolism in the gut. However, when lymphatic transport is a significant route of absorption, the in vitro lipolysis data may not be predictive for actual in vivo absorption.
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- 2006
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27. A Novel Phospholipid Derivative of Indomethacin, DP-155 [Mixture of 1-Steroyl and 1-Palmitoyl-2-{6-[1-(p-chlorobenzoyl)-5-methoxy-2-methyl-3-indolyl acetamido]hexanoyl}-sn-glycero-3-phosophatidyl Choline], Shows Superior Safety and Similar Efficacy in Reducing Brain Amyloid β in an Alzheimer's Disease Model
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Joo-Yong Lee, Israel Shapiro, Jonathan E. Friedman, Firas M. Younis, Gilad Rosenberg, Arik Dahan, Revital Duvdevani, Eran Dvir, Amnon Hoffman, Shaul Raz, Itzchak Angel, Jae-Young Koh, and Alex Kozak
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Male ,food.ingredient ,Metabolite ,Indomethacin ,Phospholipid ,Mice, Transgenic ,Pharmacology ,Kidney ,Lecithin ,Dinoprostone ,Rats, Sprague-Dawley ,Mice ,chemistry.chemical_compound ,food ,Alzheimer Disease ,Oral administration ,medicine ,Animals ,Choline ,Brain Chemistry ,Creatinine ,Amyloid beta-Peptides ,business.industry ,Brain ,Peptide Fragments ,Rats ,Gastrointestinal Tract ,Drug Combinations ,medicine.anatomical_structure ,chemistry ,Area Under Curve ,Toxicity ,Phosphatidylcholines ,Molecular Medicine ,business - Abstract
Indomethacin has been suggested for the treatment of Alzheimer's disease (AD), but its use is limited by gastrointestinal and renal toxicity. To overcome this limitation, D-Pharm Ltd. (Rehovot, Israel) developed DP-155 (mixture of 1-steroyl and 1-palmitoyl-2-{6-[1-(p-chlorobenzoyl)-5-methoxy-2-methyl-3-indolyl acetamido] hexanoyl}-Sn-glycero-3-phosophatidyl [corrected] choline), a lecithin derivative of indomethacin. Safety was tested by daily oral administration of DP-155 or indomethacin to rats in a dose range of 0.007 to 0.28 mmol/kg. The prevalence of gastrointestinal ulceration was significantly lower (10-fold) for DP-155 than for indomethacin, and the ulcerations were delayed. Signs of renal toxicity, namely reduced urine output and increased urine N-acetyl glycosaminidase to creatinine ratio, were 5-fold lower for DP-155. Indomethacin, but not an equimolar dose of DP-155, reduced urine bicyclo-prostaglandin E(2). An equimolar oral dose of DP-155 or indomethacin, administered every 4 h for 3 days, was equally efficacious in reducing the levels of Abeta42 in the brains of Tg2576 mice. Indomethacin was the principal metabolite of DP-155 in the serum. After DP-155 oral administration, indomethacin's half-life in the serum and the brain was 22 and 93 h, respectively, compared with 10 and 24 h following indomethacin oral administration. The brain to serum ratio was 3.5 times higher for DP-155 than indomethacin. This finding explains the efficacy of DP-155 in reducing Abeta42 brain levels, despite the low systemic blood concentrations of indomethacin derived from DP-155. In conclusion, compared with indomethacin, DP-155 has significantly lower toxicity in the gut and kidney while maintaining similar efficacy to indomethacin in lowering Abeta42 in the brains of Tg2576 mice. This superior safety profile highlights DP-155's potential as an improved indomethacin-based therapy for AD.
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- 2006
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28. Investigation of the enhancing mechanism of sodium N-[8-(2-hydroxybenzoyl)amino]caprylate effect on the intestinal permeability of polar molecules utilizing a voltage clamp method
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Amnon Hoffman, Shmuel Hess, and Victoria Rotshild
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Male ,Drug Carriers ,Patch-Clamp Techniques ,Passive transport ,Chemistry ,Voltage clamp ,Pharmaceutical Science ,In Vitro Techniques ,Fluoresceins ,Intestinal absorption ,Rats ,Rats, Sprague-Dawley ,Jejunum ,Intestinal Absorption ,Biochemistry ,Intestinal mucosa ,Permeability (electromagnetism) ,Paracellular transport ,Biophysics ,Animals ,Patch clamp ,Caprylates ,Intestinal Mucosa ,Transcellular - Abstract
Oral administration of sodium N-[8-(2-hydroxybenzoyl)amino]caprylate (SNAC) has been reported to increase the bioavailability of various macromolecules. The present study was aimed to study the effect of SNAC on the intestinal tissue permeability of polar charged molecules, using 6-carboxy-fluorescein (6-CF) as a model. The effects of SNAC on rat intestinal permeability was investigated ex vivo by utilizing voltage clamp experiments in a side-by-side diffusion chamber model in comparison with the effect of EDTA (10mM). The intestinal permeability of 6-CF was increased two-fold in the presence of 33-66 mM SNAC, and by 6.5-fold in the presence of 10mM EDTA. The voltage clamp experiments show that the effect of SNAC was particularly on the transcellular 7-folds increase (that was five times larger than the paracellular transport of the model agent). While EDTA affected predominantly paracellular pathway transport, SNAC 33-66 mM had no effect on [(3)H]-mannitol transport or any toxic effect on tissue integrity measured by TEER values. In conclusion, this study demonstrates that SNAC can facilitate passive transport of polar charged molecules through the membrane of epithelial enterocytes. This is noteworthy in view of the very low tendency of a charged molecule to permeate across the lipophilic inter-phase of the enterocytes membrane.
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- 2005
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29. Evaluation of a chylomicron flow blocking approach to investigate the intestinal lymphatic transport of lipophilic drugs
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Amnon Hoffman and Arik Dahan
- Subjects
Male ,Duodenum ,Pharmaceutical Science ,Absorption (skin) ,Pharmacology ,Lymphatic System ,chemistry.chemical_compound ,In vivo ,Chylomicrons ,Animals ,Mesentery ,Rats, Wistar ,Ligation ,Cholecalciferol ,Biological Transport ,Lipid Metabolism ,Rats ,Bioavailability ,Lymphatic system ,chemistry ,Biochemistry ,Lymph ,Colchicine ,Drug metabolism ,Chylomicron - Abstract
The purpose of this study was to examine the feasibility of investigating the lymphatic transport of drugs in vivo utilizing known chylomicron flow blocking substances. Vitamin D(3) (0.5 mg/kg), a model lipophilic molecule, was administered to rats with blocked chylomicron flow, induced by either cycloheximide injection (3 mg/kg), colchicine injection (5 mg/kg) or intraduodenal infusion of pluronic L-81 (1 mg/h). The effect of these experimental models on the absorption of Vitamin D(3) was compared to the outcomes of the mesenteric lymph duct cannulated rat model. The oral d-xylose loading test was used to verify that other intestinal absorptive functions were not affected. Colchicine treatment induced severe adverse effects whereas pluronic L-81 and the cycloheximide models did not affect other absorption pathways and did not cause apparent adverse effects. Vitamin D(3) absorption in these two models was in good correlation to the mesenteric lymph duct cannulation model (25% non-lymphatic relative bioavailability) indicating that the incorporation of the lipophilic molecule into the chylomicron is an essential step in the cascade of lymphatic absorption. Moreover, the data suggest that the drug association with the chylomicron occurs at an early stage of its assembly process. The results also specify that lymphatic absorption and portal blood absorption are separate pathways that are not affected by each other. In conclusion, the chemical blockage of chylomicron flow provides a potential approach for lymphatic transport investigation, and may elucidate processes involving in the absorption of lipophilic compounds.
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- 2005
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30. Pharmacokinetic-Pharmacodynamic Analysis of the Glucose-Lowering Effect of Metformin in Diabetic Rats Reveals First-Pass Pharmacodynamic Effect
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David Stepensky, Michael Friedman, Itamar Raz, and Amnon Hoffman
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Blood Glucose ,Male ,medicine.medical_specialty ,endocrine system diseases ,Duodenum ,Pharmaceutical Science ,Models, Biological ,Intestinal absorption ,Diabetes Mellitus, Experimental ,Route of administration ,Pharmacokinetics ,Internal medicine ,Diabetes mellitus ,medicine ,Animals ,Hypoglycemic Agents ,Chromatography, High Pressure Liquid ,Pharmacology ,Cross-Over Studies ,Portal Vein ,business.industry ,Drug Administration Routes ,medicine.disease ,Streptozotocin ,Crossover study ,Metformin ,Rats ,Endocrinology ,Intestinal Absorption ,Liver ,Pharmacodynamics ,business ,medicine.drug - Abstract
Metformin, a commonly used antidiabetic drug, exerts its glucose-lowering effect due to metabolic activities at several sites of action (biophases), including liver, intestine, muscle cells, and adipocytes. The relative contribution of the individual biophases to the overall glucose-lowering effect is not known. Thus, the aims of this investigation were to study the influence of mode of drug administration on the kinetics of glucose-lowering action of metformin in diabetic rats and identify the contribution of different sites of action to the overall response. Streptozotocin diabetic rats received metformin in crossover fashion via intraduodenal, intravenous, and intraportal routes as bolus dose or infusion regimens designed to yield similar pharmacokinetic profiles. Metformin plasma concentrations and blood glucose levels were measured following each mode of administration. Despite the similarity in the concentration-time profiles obtained for different routes of metformin administration, intraduodenal administration produced larger response than intraportal metformin infusion, and lowest response was observed following intravenous administration. This finding indicates that a significant "first-pass" pharmacodynamic effect, which occurs in the presystemic sites of action (liver and the gastrointestinal wall), contributes to the overall glucose-lowering response of metformin. We applied a combined pharmacokinetic-pharmacodynamic modeling approach to study the nature of the first-pass pharmacodynamic effect. The observed data were successfully described by a novel integrated indirect response pharmacokinetic-pharmacodynamic model that revealed a correlation between the temporal metformin concentrations that transit the portal vein and through the gut wall rather than with drug concentrations that accumulated in the liver and the intestinal wall.
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- 2002
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31. Pharmacokinetic and pharmacodynamic evaluation of intermittent versus continuous alendronate administration in rats
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Gershon Golomb, David Stepensky, and Amnon Hoffman
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Male ,medicine.medical_specialty ,Bone disease ,Drug Evaluation, Preclinical ,Pharmaceutical Science ,Bone Neoplasms ,Pharmacology ,Drug Administration Schedule ,Bone resorption ,Bone remodeling ,Rats, Sprague-Dawley ,Route of administration ,Bolus (medicine) ,Pharmacokinetics ,Internal medicine ,medicine ,Animals ,Bone Resorption ,Carcinoma 256, Walker ,Rats, Wistar ,Parathyroidectomy ,Alendronate ,Tibia ,business.industry ,Alendronic acid ,Liver Neoplasms ,medicine.disease ,Rats ,Endocrinology ,Pharmacodynamics ,Thyroidectomy ,Calcium ,Female ,business ,Neoplasm Transplantation ,medicine.drug - Abstract
We studied the differences in pharmacokinetics and pharmacodynamics of the same dose of alendronate administered subcutaneously as intermittent bolus injection or continuous infusion in rats. Two rat models of bone disease were applied. Bone cancer was produced by intratibial inoculation of Walker carcinosarcoma cells, and a model of augmented bone resorption was produced by vitamin D(3) treatment of rats that had undergone thyroidparathyroidectomy. Higher amounts of alendronate were found in bones and in internal organs after bolus drug administration as compared with continuous infusion. Drug effects on plasma calcium levels and on urine calcium excretion were similar in both modes of alendronate administration. Results of the study indicate that the pharmacokinetics (disposition) of alendronate is administration-dependent. The total amount found in bone does not directly represent the amount of alendronate that is pharmacologically active at the site of action in the bone and that affects bone remodeling. The findings suggest that there is no pharmacodynamic advantage for continuous infusion of alendronate. It is concluded that the preferred mode of administration should be selected according to secondary clinical criteria (like incidence of adverse effects and convenience of administration).
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- 2002
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32. Preclinical evaluation of pharmacokinetic–pharmacodynamic rationale for oral CR metformin formulation
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David Stepensky, Amnon Hoffman, Itamar Raz, Wassim Srour, and Michael Friedman
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Blood Glucose ,Male ,Administration, Oral ,Pharmaceutical Science ,Pharmacology ,Diabetes Mellitus, Experimental ,Route of administration ,Bolus (medicine) ,Pharmacokinetics ,Oral administration ,Animals ,Hypoglycemic Agents ,Medicine ,Chromatography, High Pressure Liquid ,business.industry ,Controlled release ,Metformin ,Rats ,Bioavailability ,Gastric Mucosa ,Area Under Curve ,Delayed-Action Preparations ,Pharmacodynamics ,Injections, Intravenous ,business ,Tablets ,medicine.drug - Abstract
We examined the pharmacokinetic (PK) and pharmacodynamic (PD) rationales to develop controlled release (CR) formulations of metformin. Unrestrained diabetic rats received the drug as intravenous bolus (i.v.), oral solution (p.o.), intra-duodenal bolus, 4-h infusion, or intra-colonic bolus. In addition, we developed two CR-gastroretentive dosage forms (CR-GRDF) that released the drug over 3 or 6 h (in vitro), and retained in the rats’ stomach for 8–10 h. Metformin exhibited flip-flop PK. The colonic absorption was low but sustained and was associated with highly variable glucose-lowering effects, thus providing a PK rationale to develop CR-GRDF. In addition, the glucose-lowering effect was greater following p.o. vs. i.v. administration, despite equivalent AUC, indicating a first pass PD effect, thus, adding a PD rationale to develop metformin CR-GRDF. When administered to the diabetic rats, CR-GRDFs produced bioavailability and extent of glucose-lowering effects that were similar to those of the duodenal infusion and p.o. metformin administration. These findings are attributed to the adsorption of metformin to the intestine that yields slow and prolonged absorption even following p.o. administration of drug solution. The data indicates that unless the CR formulation could significantly extend the absorption period, it is not likely to improve glucose-lowering efficacy.
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- 2001
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33. A Peptide Prodrug Approach for Improving Bisphosphonate Oral Absorption
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Aviva Ezra, Soili Törmälehto, Irith Gati, Amnon Hoffman, Ivan S. Alferiev, Gordon L. Amidon, David Stepensky, Gershon Golomb, G. Weiss, Eli Breuer, Jukka Mönkkönen, N El Hanany-Rozen, and Hagit Cohen
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Administration, Oral ,Biological Availability ,Pamidronate ,Pharmacology ,Peptide Transporter 1 ,Intestinal absorption ,chemistry.chemical_compound ,Pharmacokinetics ,Oral administration ,Drug Discovery ,Animals ,Chemical Precipitation ,Humans ,Prodrugs ,Tissue Distribution ,Dipeptide ,Alendronate ,Diphosphonates ,Symporters ,biology ,Chemistry ,Peptide transporter 1 ,Dipeptides ,Prodrug ,Rats ,Bioavailability ,Durapatite ,Intestinal Absorption ,Injections, Intravenous ,biology.protein ,Molecular Medicine ,Caco-2 Cells ,Carrier Proteins ,Drug carrier - Abstract
This work was aimed at improving the absorption of bisphosphonates by targeting carrier systems in the intestine and the intestinal peptide carrier system (hPEPT1), in particular. (14)C-Labeled pamidronate and alendronate as well as radiolabeled and "cold" peptidyl-bisphosphonates, Pro-[(3)H]Phe-[(14)C]pamidronate, and Pro-[(3)H]Phe-[(14)C]alendronate were synthesized. In situ single-pass perfusion studies revealed competitive inhibition of transport by Pro-Phe, suggesting peptide carrier-mediated transport. Prodrug transport in the Caco-2 cell line was significantly better than that of the parent drugs, and the prodrugs exhibited high affinity to the intestinal tissue. Oral administration of the dipeptidyl prodrugs resulted in a 3-fold increase in drug absorption following oral administration in rats, and the bioavailability of Pro-Phe-alendronate was 3.3 (F(TIBIA)) and 1.9 (F(URINE)) times higher than that of the parent drug. The results indicate that the oral absorption of bisphosphonates can be improved by peptidyl prodrugs via the hPEPT1; however, other transporters may also be involved.
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- 2000
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34. Pharmacodynamic Effects of Bezafibrate and Niacin Combination: Implications of the Mode of Administration
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Yossef Lomnicky, Michael Friedman, Tali Haimov, Myron H. Luria, and Amnon Hoffman
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Male ,medicine.medical_specialty ,Pharmaceutical Science ,Hyperlipidemias ,Pharmacology ,Niacin ,Route of administration ,chemistry.chemical_compound ,Oral administration ,Internal medicine ,Hyperlipidemia ,medicine ,Animals ,Triglycerides ,Hypolipidemic Agents ,Bezafibrate ,business.industry ,Cholesterol ,Drug interaction ,medicine.disease ,Rats ,Endocrinology ,chemistry ,Rats, Inbred Lew ,Pharmacodynamics ,Drug Therapy, Combination ,business ,medicine.drug - Abstract
The goal of this investigation was to optimize antilipid therapy by utilizing the combined activity of two lipid-lowering agents, niacin and bezafibrate, and improve their efficacy by targeting them to their presumed presystemic site(s) of action. Thus, continuous duodenal (IGI) administration of the drug combination should augment their efficacy in comparison with intermittent oral treatment. Three hyperlipidemic rat models were studied: Models A and B were based on cholesterol-enriched diets and Model C was based on on acute hyperlipidemia induced by triton injection. Continuous IGI administration of the drug combination [bezafibrate, 30mg/kg/day, and niacin, 40 mg/kg/day for 3 days (Models A and B) or for 18 h (Model C)] produced significantly greater lowering of total cholesterol and triglycerides and elevation of high-density lipoprotein (HDL) cholesterol in comparison with intermittent oral administration of the same doses either given individually or in combination (Models A and B). Similar results were found in Model C for the IGI administration of the drug combination in contrast to oral and also to intravenous infusions. The results indicate that the combination of bezafibrate and niacin produces a significant hypolipidemic response, with major site(s) of action located presystemically. Because a slow-release matrix tablet of the drug combination resulted in a similar magnitude of effect as the IGI administration, the present study provides a pharmacodynamic rationale for the use of a slow-release low-dose niacin-bezafibrate combination.
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- 2000
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35. The Effect of the Mode of Administration on the Hypolipidaemic Activity of Niacin: Continuous Gastrointestinal Administration of Low-dose Niacin Improves Lipid-lowering Efficacy in Experimentally-induced Hyperlipidaemic Rats
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Michael Friedman, Amnon Hoffman, Yossef Lomnicky, Itamar Raz, and Myron H. Luria
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Male ,Time Factors ,Duodenum ,Pharmaceutical Science ,Hyperlipidemias ,In Vitro Techniques ,Pharmacology ,Niacin ,Drug Administration Schedule ,Polyethylene Glycols ,Cholesterol, Dietary ,Surface-Active Agents ,chemistry.chemical_compound ,Route of administration ,Bolus (medicine) ,Oral administration ,Animals ,Medicine ,Aspartate Aminotransferases ,Intubation, Gastrointestinal ,Triglycerides ,Triglyceride ,business.industry ,Cholesterol ,Rats ,chemistry ,Pharmacodynamics ,Injections, Intravenous ,Lipoproteins, HDL ,business ,Lipoprotein - Abstract
The effect of different routes and modes of administration of niacin (nicotinic acid) on its hypolipidaemic activity has been evaluated. Our working hypothesis was that the major sites of niacin action are located presystemically (i.e. in the gut wall or the liver, or both) which would make niacin a gastrointestinal drug. For such drugs continuous administration to the gastrointestinal tract is expected to augment their efficacy compared with bolus oral administration or parenteral administration. The hypothesis was examined in two rat models of experimentally induced hyperlipidaemia—Model A, based on a cholesterol-enriched diet, and Model B, in which acute hyperlipidaemia is induced by intraperitoneal administration of triton (225 mg kg−1). Continuous administration of niacin into the duodenum at 1.66 mg h−1 (total dose 40 mg kg−1 day−1) for up to 7 days (Model A) or at 2.22 mg h−1 over 18 h (Model B) had significantly greater lipid-reducing effects both on total cholesterol and on triglyceride levels (15–25%) and elevation of high-density lipoprotein (HDL) cholesterol levels than did bolus oral administration of the same dose. Continuous duodenal infusion of niacin also had an even greater lipid-reducing effect than continuous intravenous infusion of the drug at the same rate and dose. The results indicate that the site(s) of action are located presystemically and that continuous duodenal administration of a low dose of niacin (40 mg kg−1) has a greater lipid-lowering effect than a higher dose (200 mg kg−1) administered by peroral bolus administration. These conclusions were validated by administration of a specially designed niacin sustained-release matrix tablet formulation that was non-invasively administered to hyperlipidaemic rats. The hypolipidaemic activity of the sustained-release tablet was of similar magnitude to that resulting from continuous duodenal administration, thus providing a pharmacodynamic rationale for this mode of administration.
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- 1998
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36. The Anticonvulsant Effect of Deprenyl on Pentylenetetrazol-Induced Seizures in Lewis Rats
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Mishel Afargan, Amnon Hoffman, Itay Perlstein, and Joshua Backon
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Male ,medicine.medical_treatment ,Convulsants ,Pharmacology ,Epilepsy ,Seizures ,Dopamine receptor D2 ,Selegiline ,Convulsion ,medicine ,Animals ,Pentylenetetrazol ,Seizure threshold ,Chemistry ,General Neuroscience ,Dopaminergic ,General Medicine ,medicine.disease ,Rats ,Anticonvulsant ,Rats, Inbred Lew ,Pentylenetetrazole ,Anticonvulsants ,Kindling model ,medicine.symptom ,Neuroscience ,medicine.drug - Abstract
There is recent evidence that deprenyl may have anticonvulsant action in a rat kindling model of epilepsy as well as in a maximal electroshock model. We therefore investigated the effect of deprenyl on the brain sensitivity threshold to pentylenetetrazol (PTZ)-induced maximal seizures in Lewis rats, in a model that provides pharmacodynamic information free of pharmacokinetic interference. The novel finding of this investigation was the anticonvulsant effect of deprenyl following repetitive administration whereas a single deprenyl dose did not affect the PTZ concentrations required to induce maximal seizures. The data suggests that the mechanism of this effect is not associated with the dopaminergic activity of deprenyl since pretreatment with both bromocriptine (a dopamine D2 agonist) and haloperidol (dopamine antagonist) did not affect the seizure threshold, whereas levodopa caused a proconvulsant effect. It was also concluded that the mechanism is not related to changes in acetylcholine levels since prolonged pretreatment with deprenyl did not attenuate the brain sensitivity to pilocarpine-induced seizures. The fact that long term administration of deprenyl was needed to produce its anticonvulsant effect may indicate that the anticonvulsant effect of deprenyl may be due to changes in levels of certain endogenous compounds or down or up-regulation of relevant receptor/effector units.
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- 1997
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37. Enhanced antinociceptive efficacy of epidural compared with i.v. methadone in a rat model of thermal nociception
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Leonid Kagan, Simon Haroutiunian, I. Yifrach-Damari, Elyad Davidson, Amnon Hoffman, and Y. Ratz
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Epidural Space ,Male ,Analgesic ,Pain ,Pharmacology ,Models, Biological ,Rats, Sprague-Dawley ,Pharmacokinetics ,medicine ,Animals ,Epidural administration ,business.industry ,Rats ,Analgesics, Opioid ,Anesthesiology and Pain Medicine ,Nociception ,Opioid ,Anesthesia ,Pharmacodynamics ,Injections, Intravenous ,Models, Animal ,Reflex ,business ,Methadone ,medicine.drug - Abstract
pharmacokinetic properties of methadone given by i.v. or epidural routeswerecomparedina rat model of thermal nociception. † Although pharmacokinetically similar, epidural methadone was a more effective analgesic than i.v. methadone. Background.Thepropertiesofmethadonesuggestapotentialadvantageforepiduraloveri.v. administration for pain relief, but little supportive evidence exists. Methods. To investigate the pharmacokinetic and the pharmacodynamic properties of epidural and i.v. methadone, four doses of methadone (0.1, 0.25, 0.5, and 0.75 mg kg 21 ) were investigated by each route in a rat model. The tail-flick and hot water tail immersion test were used for thermal nociception. The magnitude of antinociceptive efficacy was expressed as per cent maximal possible effect (%MPE) of tail withdrawal latency, and the area under the %MPE vs time curve indicated the cumulative antinociceptive effect. A pharmacokinetic model describing the disposition and elimination of methadone was established. Results. The pharmacokinetic profiles of methadone were not significantly different after epidural and i.v. administration. A two-compartment model with saturable elimination provided a good fit of the experimental data. At equivalent doses, epidural methadone produced higher cumulative antinociceptive effect in both thermal models. Supraspinal opioid effect, assessed by pinna reflex presence, was significantly lower with epidural methadone at equivalent doses. The duration of antinociceptive effect was longer with epidural administration of 0.5 and 0.75 mg kg 21 doses. Conclusions. Epidural administration of methadone in rats resulted in systemic exposure similar to that after i.v. administration, but improved thermal antinociceptive efficacy, and reduced supraspinal undesired effects. The findings suggest the presence of local effect at the spinal cord level, in addition to the systemic effect produced by epidural methadone.
- Published
- 2013
38. Physicochemical Characterization and Acute Toxicity Evaluation of a Positively-charged Submicron Emulsion Vehicle
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Shimon Benita, Shmuel Klang, Amnon Hoffman, and Joseph Frucht‐Pery
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Male ,Drug Storage ,Phospholipid ,Pharmaceutical Science ,Dosage form ,Nephrotoxicity ,Cornea ,Mice ,chemistry.chemical_compound ,Drug Delivery Systems ,Drug Stability ,Zeta potential ,Animals ,Amines ,Particle Size ,Triglycerides ,Pharmacology ,Mice, Inbred BALB C ,Chromatography ,Behavior, Animal ,Phosphatidylethanolamines ,Fatty Acids ,Temperature ,Sterilization ,Hydrogen-Ion Concentration ,Poloxamer ,Lipids ,Acute toxicity ,Rats ,Sphingomyelins ,chemistry ,Rats, Inbred Lew ,Toxicity ,Emulsion ,Microscopy, Electron, Scanning ,Phosphatidylcholines ,Emulsions ,Rabbits - Abstract
Fine, homogeneous, positively-charged emulsions with a mean droplet size of 138 ± 71 nm and a zeta potential value of 41.06 mV were prepared using a combination of emulsifiers comprising phospholipids, poloxamer 188, and stearylamine. The pH of these emulsions decreased with time. However, the extent of decrease was dependent on the storage temperature. The mean droplet size of the emulsions that had been prepared with 1% poloxamer began to increase slightly after six months’ storage, particularly when stored at 23 and 37°C. However, emulsions prepared with 2% poloxamer remained stable for at least 10 months at 4°C, suggesting that the poloxamer 188 concentration is critical for prolonged emulsion stability. The results of the ocular tolerance study in rabbit eye indicate that hourly administration of a positively-charged emulsion vehicle was well tolerated without any toxic or inflammatory response to the ocular surface during the five days of the study. Scanning electron microscopy revealed a normal corneal surface, which was not different from that of the animals treated with physiological saline. No marked acute toxicity was observed when 0.6 mL of positively-charged emulsion was injected intravenously to BALB/c mice. Furthermore, no difference was noted between this group of animals and the group injected with the marketed Intralipid emulsion. These results were further confirmed in a rat study where there were no deaths following intravenous injection of 3.3 mL per rat of the positively-charged emulsion or Intralipid. Neither emulsion elicited any hepatotoxic or nephrotoxic effects. The overall results suggest that the novel positively-charged emulsion is suitable for parenteral use, and for ocular application.
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- 1994
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39. Differential effects of various antiinflammatory drugs on theophylline neurotoxicity
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Dalia Gilhar, Joshua Backon, Amnon Hoffman, Evelyne Pinto, and Mishel Afargan
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Male ,Mefenamic acid ,medicine.drug_class ,Clinical Biochemistry ,Anti-Inflammatory Agents ,Pharmacology ,Toxicology ,Biochemistry ,Behavioral Neuroscience ,Theophylline ,Adrenal Cortex Hormones ,Seizures ,Bronchodilator ,Convulsion ,medicine ,Animals ,Biological Psychiatry ,Dexamethasone ,Seizure threshold ,business.industry ,Anti-Inflammatory Agents, Non-Steroidal ,Ibuprofen ,Rats ,Rats, Inbred Lew ,Pharmacodynamics ,Nervous System Diseases ,medicine.symptom ,business ,medicine.drug - Abstract
The purpose of the present investigation was to evaluate whether antiinflammatory drugs affect the pharmacodynamics of theophylline-induced seizures. Adult male Lewis rats were treated with either dexamethasone (DEX), hydrocortisone (HYD), ibuprofen (IBU), or mefenamic acid (MFA), for 4 consecutive days. On the fourth day they received a constant infusion of theophylline (2 mg/min IV) until the onset of maximal seizures. Then, blood and cerebrospinal fluid (CSF) were obtained for theophylline concentration determinations by HPLC. It was found that pretreatment with the corticosteroids DEX and HYD elevated the CSF theophylline concentration required to induce maximal seizures in comparison to the untreated rats (242 +/- 6, 232 +/- 6, and 203 +/- 10 mg/l, respectively, n = 10, p0.05). MFA also increased the CSF theophylline concentration at that end-point in comparison to the controls (p0.01), whereas pretreatment with IBU had no effect (280 +/- 10 MFA, 225 +/- 9 IBU vs. 220 +/- 8 controls, n = 12). The data suggests that concomitant treatment with antiinflammatory drugs, together with theophylline, do not increase the risk for theophylline-induced seizures. Moreover, in certain cases they may elevate the seizure threshold and protect against these hazardous episodes.
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- 1994
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40. Effect of pretreatment with anticonvulsants on theophylline-induced seizures in the rat
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Dalia Gilhar, Amnon Hoffman, and Evelyne Pinto
- Subjects
Phenytoin ,medicine.medical_specialty ,medicine.medical_treatment ,Critical Care and Intensive Care Medicine ,Rats, Sprague-Dawley ,Epilepsy ,Theophylline ,Seizures ,Internal medicine ,medicine ,Animals ,Chromatography, High Pressure Liquid ,Brain Chemistry ,Valproic Acid ,business.industry ,Poisoning ,medicine.disease ,Clonazepam ,Rats ,Disease Models, Animal ,Endocrinology ,Anticonvulsant ,Anticonvulsants ,Female ,Phenobarbital ,business ,Diazepam ,medicine.drug - Abstract
Seizures, often with fatal outcome, are a manifestation of pronounced theophylline toxicity. Prodromal symptoms are not always apparent, and the seizures are reported to be, in certain cases, refractory to treatment with anticonvulsant drugs. The purpose of this investigation was to examine, by an established animal model, which of the commonly used anticonvulsants can reduce the central nervous system sensitivity to theophylline neurotoxicity and what should be the preferred treatment in cases in which theophylline toxicity is anticipated. The anticonvulsant agents in doses that are found to be effective in other types of experimentally induced seizures in rats, clonazepam 5 mg/ kg, diazepam 5 mg/kg, phenytoin 8 mg/kg, phenobarbital 100 mg/kg, valproic acid 150 mg/kg, and magnesium sulphate 300 mg/kg, or the vehicle (controls) were administered intravenously to Lewis female rats. Thirty minutes later, theophylline was infused at a constant rate of 1.3 mg/min until onset of maximal seizures. Theophylline concentrations in the cerebrospinal fluid, brain, and serum were assayed by a high-performance liquid chromatography method. It was found that pretreatment with either clonazepam, diazepam, phenobarbital, or valproic acid increased the central nervous system thresholds to the theophylline-induced seizures, whereas phenytoin and magnesium sulphate did not attenuate the sensitivity of the brain to the stimulatory action of this widely used bronchodilator. Therefore, whenever theophylline toxicity is suspected, treatment with either diazepam, clonazepam, phenobarbital, or valproic acid can reduce the hazard associated with theophylline-induced seizures.
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- 1993
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41. Rational conversion of noncontinuous active region in proteins into a small orally bioavailable macrocyclic drug-like molecule: The HIV-1 CD4:gp120 paradigm
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Salim Joubran, Laurence Briant-Longuet, Noam S. Freeman, Mattan Hurevich, Martine Bardy, Amnon Hoffman, Christian Devaux, Elena Britan-Rosich, Chaim Gilon, Avi Swed, Moshe Kotler, Shira Cohen, Infections rétrovirales et signalisation cellulaire (IRSC), Université Montpellier 1 (UM1)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche en Infectiologie de Montpellier (IRIM), and Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)
- Subjects
Male ,Drug ,Macrocyclic Compounds ,Anti-HIV Agents ,Stereochemistry ,media_common.quotation_subject ,Clinical Biochemistry ,Administration, Oral ,Pharmaceutical Science ,HIV Envelope Protein gp120 ,01 natural sciences ,Biochemistry ,Chemical synthesis ,03 medical and health sciences ,chemistry.chemical_compound ,In vivo ,Drug Discovery ,Peptide synthesis ,Animals ,Humans ,HATU ,Rats, Wistar ,Molecular Biology ,030304 developmental biology ,media_common ,chemistry.chemical_classification ,0303 health sciences ,Binding Sites ,010405 organic chemistry ,Organic Chemistry ,In vitro ,Cyclic peptide ,Rats ,0104 chemical sciences ,3. Good health ,chemistry ,Drug Design ,CD4 Antigens ,[SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology ,HIV-1 ,Molecular Medicine ,Lead compound ,Protein Binding - Abstract
International audience; Rational conversion of noncontinuous active regions of proteins into a small orally bioavailable molecule is crucial for the discovery of new drugs based on inhibition of protein-protein interactions. We developed a method that utilizes backbone cyclization as an intermediate step for conversion of the CD4 noncontinuous active region into small macrocyclic molecules. We demonstrate that this method is feasible by preparing small inhibitor for human immunodeficiency virus infection. The lead compound, CG-1, proved orally available in the rat model.
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- 2010
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42. Role of p-glycoprotein in region-specific gastrointestinal absorption of talinolol in rats
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Donald E. Mager, Leonid Kagan, Amnon Hoffman, and Tali Dreifinger
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Male ,medicine.medical_specialty ,ATP Binding Cassette Transporter, Subfamily B ,Pharmaceutical Science ,Absorption (skin) ,Pharmacology ,Propanolamines ,chemistry.chemical_compound ,Pharmacokinetics ,Internal medicine ,polycyclic compounds ,medicine ,Animals ,Rats, Wistar ,P-glycoprotein ,Volume of distribution ,biology ,Chemistry ,Stomach ,Bioavailability ,Rats ,Endocrinology ,medicine.anatomical_structure ,Intestinal Absorption ,biology.protein ,Verapamil ,medicine.drug ,Talinolol - Abstract
P-Glycoprotein (PGP) is nonuniformly distributed along the gastrointestinal (GI) tract; however, the data regarding regional differences in PGP function in the intestine are controversial. The aim of this work was to investigate the role of PGP efflux in region-specific absorption of talinolol from the GI tract in rats. Plasma talinolol concentrations were measured after several modes of administration, including high (40 mg/kg) and low (4 mg/kg) dose levels, to different segments of the GI tract (stomach versus colon), and codosing with PGP inhibitors (verapamil or cyclosporine). The bioavailability (F) of talinolol after high-dose administration to the stomach was significantly greater than that achieved by the low dose (approximately 18 versus 2%). Coadministration of low-dose talinolol with cyclosporine increased F by approximately 5-fold (p < 0.01). For the high dose, codosing with PGP inhibitors did not increase the extent of absorption. Talinolol demonstrated poor colonic absorption that was significantly increased by coadministration with cyclosporine (F = 0.76 versus 8.1%). Oral verapamil significantly increased systemic clearance and the steady state volume of distribution of intravenous talinolol. A semiphysiological model was developed that successfully captured the pharmacokinetic profiles of talinolol after various modes of administration. PGP-mediated efflux appears to be a major factor responsible for GI region-specific absorption of talinolol in rats, and gastroretentive dosage forms may provide an advantage in the delivery of talinolol and PGP substrate drugs.
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- 2010
43. Effect of abdominal surgery on the intestinal absorption of lipophilic drugs: possible role of the lymphatic transport
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Constantin Itin, Amnon Hoffman, Shimon Amselem, Pavel Gershkovich, and Avihai Yacovan
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Male ,Absorption (skin) ,Pharmacology ,Intestinal absorption ,Lymphatic System ,chemistry.chemical_compound ,Postoperative Complications ,Oral administration ,Physiology (medical) ,Abdomen ,Medicine ,Animals ,Dronabinol ,Rats, Wistar ,Dexanabinol ,business.industry ,Biochemistry (medical) ,Public Health, Environmental and Occupational Health ,Imidazoles ,General Medicine ,Rats ,medicine.anatomical_structure ,Lymphatic system ,chemistry ,Intestinal Absorption ,Antiemetics ,business ,Drug metabolism ,Abdominal surgery - Abstract
Although abdominal surgery is a routine procedure in clinical practice and in preclinical investigation, little is known regarding its effect on the intestinal absorption of drugs. The aim of this study was to investigate the effect of abdominal surgery on the intestinal absorption of highly lipophilic compounds with different absorption mechanisms following oral administration. The 2 compounds that were tested were biopharmaceutical classification system (BCS) class 2 model lipophilic cannabinoid derivatives, dexanabinol and PRS-211,220. Although dexanabinol is mostly absorbed via passive diffusion to the portal blood, PRS-211,220 is absorbed mostly via lymphatic transport. In this work, we compared the absorption of these compounds after abdominal surgery in rat with the absorption data obtained from naive animals. The outcomes of this investigation showed that the abdominal surgery mostly affected the absorption process on the preenterocyte level, as indicated by the 2-fold increase in the extent of intestinal absorption of dexanabinol, which is a compound with a low degree of intestinal lymphatic transport. However, the lymphatic transport was not affected by the surgical procedure as evident by the absence of change in the extent of absorption of PRS-211,220, which is transported to the systemic circulation mainly by intestinal lymphatics. In conclusion, abdominal surgery can significantly affect the intestinal absorption of lipophilic drugs; however, intestinal lymphatic transport seems to be less affected by the abdominal surgery.
- Published
- 2009
44. The role of molecular physicochemical properties and apolipoproteins in association of drugs with triglyceride-rich lipoproteins: in-silico prediction of uptake by chylomicrons
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Joseph Fanous, Shimon Amselem, Bashir Qadri, Avihai Yacovan, Pavel Gershkovich, and Amnon Hoffman
- Subjects
Male ,Chemical Phenomena ,In silico ,Lipoproteins ,Pharmaceutical Science ,Models, Biological ,chemistry.chemical_compound ,Molecular descriptor ,Chylomicrons ,Animals ,Technology, Pharmaceutical ,Degree of association ,Computer Simulation ,Rats, Wistar ,Triglycerides ,Pharmacology ,Triglyceride ,Molecular Structure ,Chemistry ,Reproducibility of Results ,Hydrogen-Ion Concentration ,Rats ,Apolipoproteins ,Biochemistry ,Pharmaceutical Preparations ,Solubility ,Emulsions ,Drug metabolism ,Chylomicron - Abstract
Objectives The uptake of drugs by chylomicrons is a key element in both intestinal lymphatic transport and postprandial alterations in the disposition profile of lipophilic drugs. The aim of this article was to elucidate the factors that affect this phenomenon. Methods The degree of association of 22 model lipophilic molecules with rat chylomicrons was assessed and correlated in silico with calculated physicochemical properties. The in-silico model was then validated using an external set of molecules. The uptake by chylomicrons was also compared to the association with a marketed artificial emulsion. Key findings The most important physicochemical property that affects the affinity to chylomicrons was found to be LogD7.4; however, a multiparameter model was required to describe properly the uptake process. The in-silico model (R2Y = 0.91, R2X = 0.91 and Q2 = 0.82) that was created using a combination of eight molecular descriptors enabled successful prediction of the affinity of the external set of molecules to chylomicrons. The association with the artificial emulsion was statistically different from the uptake by chylomicrons for four (out of nine) molecules. Conclusions The association of drugs with chylomicrons is a complex process, which involves the lipophilic core as well as surface apoproteins. The in-silico model based on multiple physicochemical properties of the drugs is able to predict successfully the degree of association with chylomicrons.
- Published
- 2009
45. Improving oral bioavailability of peptides by multiple N-methylation: somatostatin analogues
- Author
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Eric Biron, Daniel Hoyer, Daniel Langenegger, Chaim Gilon, Raz Jelinek, Horst Kessler, Jayanta Chatterjee, Amnon Hoffman, Herbert A. Schmid, Joseph Brueggen, and Oded Ovadia
- Subjects
chemistry.chemical_classification ,Models, Molecular ,Molecular Structure ,medicine.drug_class ,Administration, Oral ,Biological Availability ,Biological activity ,General Chemistry ,Methylation ,Pharmacology ,Receptor antagonist ,Catalysis ,Cyclic peptide ,In vitro ,Bioavailability ,Rats ,Somatostatin ,chemistry ,Caco-2 ,medicine ,Animals ,Humans ,Caco-2 Cells - Published
- 2008
46. Backbone cyclic peptidomimetic melanocortin-4 receptor agonist as a novel orally administrated drug lead for treating obesity
- Author
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Avi Faier, Dana Yarden, Efrat Halbfinger, Yael Gabinet, Deborah E. Shalev, Oded Ovadia, Shmuel Hess, Zhimin Xiang, Tair Lapidot, Avi Swed, Yaniv Linde, Chaim Gilon, Carrie Haskell-Luevano, Amnon Hoffman, Eli Safrai, Federico P. Portillo, and Ilan Winkler
- Subjects
Agonist ,Male ,medicine.medical_specialty ,Magnetic Resonance Spectroscopy ,Peptidomimetic ,medicine.drug_class ,Administration, Oral ,Biological Availability ,Peptide ,Ligands ,Peptides, Cyclic ,Cell Line ,Mice ,Structure-Activity Relationship ,Pharmacokinetics ,Oral administration ,Internal medicine ,Drug Discovery ,medicine ,Animals ,Humans ,Tissue Distribution ,Rats, Wistar ,Receptor ,chemistry.chemical_classification ,Tetrapeptide ,Chemistry ,Molecular Mimicry ,Brain ,Rats ,Melanocortin 4 receptor ,Endocrinology ,Intestinal Absorption ,Injections, Intravenous ,Molecular Medicine ,Receptor, Melanocortin, Type 4 ,Anti-Obesity Agents - Abstract
The tetrapeptide sequence His-Phe-Arg-Trp, derived from melanocyte-stimulating hormone (alphaMSH) and its analogs, causes a decrease in food intake and elevates energy utilization upon binding to the melanocortin-4 receptor (MC4R). To utilize this sequence as an effective agent for treating obesity, we improved its metabolic stability and intestinal permeability by synthesizing a library of backbone cyclic peptidomimetic derivatives. One analog, peptide 1 (BL3020-1), was selected according to its selectivity in activating the MC4R, its favorable transcellular penetration through enterocytes and its enhanced intestinal metabolic stability. This peptide was detected in the brain following oral administration to rats. A single oral dose of 0.5 mg/kg in mice led to reduced food consumption (up to 48% vs the control group) that lasted for 5 h. Repetitive once daily oral dosing (0.5 mg/kg/day) for 12 days reduced weight gain. Backbone cyclization was shown to produce a potential drug lead for treating obesity.
- Published
- 2008
47. Effect of structural and conformation modifications, including backbone cyclization, of hydrophilic hexapeptides on their intestinal permeability and enzymatic stability
- Author
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Amnon Hoffman, Bashir Qadri, Tania Sheynis, Raz Jelinek, Yoseph Salitra, Oded Ovadia, Chaim Gilon, Tamar Yehezkel, Hanoch Senderovich, Deborah E. Shalev, and Shmuel Hess
- Subjects
Cell Membrane Permeability ,Magnetic Resonance Spectroscopy ,Stereochemistry ,Protein Conformation ,Peptide ,In Vitro Techniques ,Methylation ,Peptides, Cyclic ,Intestinal absorption ,Structure-Activity Relationship ,Protein structure ,Drug Discovery ,Intestine, Small ,Structure–activity relationship ,Animals ,Humans ,Mannitol ,chemistry.chemical_classification ,Microvilli ,Chemistry ,Biological Transport ,Nuclear magnetic resonance spectroscopy ,Cyclic peptide ,Rats ,Intestinal Absorption ,Permeability (electromagnetism) ,Cyclization ,Lipophilicity ,Liposomes ,Molecular Medicine ,Caco-2 Cells ,Oligopeptides - Abstract
A library of 18 hexapeptide analogs was synthesized, including sub-libraries of N- or C-methylation of the parent hexapeptide Phe-Gly-Gly-Gly-Gly-Phe, as well as backbone cyclized analogs of each linear analog with various ring sizes. N- or C-methylation as well as cyclization (but not backbone cyclization) have been suggested to improve intestinal permeability and metabolic stability of peptides in general. Here we aimed to assess their applicability to hydrophilic peptides. The intestinal permeability (Papp) of the 18-peptide library was in the range of 0.2-6.8 x 10-6 cm/sec. Based on several tests, we concluded that the absorption mechanism of all tested analogs is paracellular, regardless of the structural or conformational modifications. In all cases, backbone cyclization increased Papp (5-fold) in comparison to the linear analogs due to the smaller 3D size and also dramatically decreased peptide proteolysis by brush border enzymes. N- or C-methylation did not enhance the permeability of the linear analogs in this series.
- Published
- 2007
48. The oral absorption of phospholipid prodrugs: in vivo and in vitro mechanistic investigation of trafficking of a lecithin-valproic acid conjugate following oral administration
- Author
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Israel Shapiro, Revital Duvdevani, Elena Finkelstein, Anat Elmann, Amnon Hoffman, and Arik Dahan
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Male ,Enterocyte ,Phospholipid ,Pharmaceutical Science ,Administration, Oral ,Biological Availability ,Pharmacology ,chemistry.chemical_compound ,Food-Drug Interactions ,Mice ,Pharmacokinetics ,Drug Stability ,Oral administration ,Lecithins ,medicine ,Animals ,Prodrugs ,Rats, Wistar ,Triglycerides ,Lymphatic Vessels ,Mice, Knockout ,Drug Carriers ,Mice, Inbred BALB C ,Molecular Structure ,Valproic Acid ,Mouth Mucosa ,Biological Transport ,Prodrug ,Postprandial Period ,Rats ,Mice, Inbred C57BL ,Phospholipases A2 ,medicine.anatomical_structure ,chemistry ,Drug delivery ,Injections, Intravenous ,lipids (amino acids, peptides, and proteins) ,Lymph ,Drug carrier ,Conjugate - Abstract
The purpose of this study was to evaluate the oral absorption characteristics of a phospholipid-drug conjugate, comprising direct conjugation between the lecithin and the drug moiety through the sn-2 position. We investigated the mechanisms involved with the trafficking of this conjugate following oral administration in the gastrointestinal (GI) lumen, within the enterocyte and further. A phospholipid-valproic acid conjugate (DP-VPA) was utilized as a model molecule. The oral absorption of this conjugate in rats was investigated following administration in long (LCT) vs. medium (MCT) chain triglyceride formulations, and in the postprandial vs. fasted state. Oral administration within the LCT solution caused more than a 3-fold increase in DP-VPA bioavailability in comparison to the MCT solution. Moreover, a significant food effect was evident for DP-VPA. Hence, we evaluated the lymphatic transport of DP-VPA in mesenteric lymph duct cannulated freely moving rats. Sixty percent of the absorbed DP-VPA was associated with lymphatic transport. Similar DP-VPA absorption was obtained in secretory type II PLA(2) knockout mice (C57BL/6) and in control mice (BALB/c). Moreover, nil DP-VPA degradation in serum and very low (4.8%) degradation by bee venom PLA(2)in vitro were obtained. In conclusion, direct conjugation between the drug and the phospholipid produces a complex having unique absorption properties that include: (1) a stable complex that does not undergo degradation in the GI tract; (2) permeation through the gut wall and entering intact to the enterocyte; and (3) association with chylomicron in the enterocyte and reaching the systemic circulation via the lymphatic route. These unique properties may be of interest in drug delivery.
- Published
- 2007
49. DP-155, a lecithin derivative of indomethacin, is a novel nonsteroidal antiinflammatory drug for analgesia and Alzheimer's disease therapy
- Author
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Anat Elman, Eran Dvir, Israel Shapiro, Jonathan E. Friedman, Revital Duvdevani, Arik Dahan, Amnon Hoffman, and Danielle A. Simmons
- Subjects
food.ingredient ,Metabolite ,Indomethacin ,Reviews ,Pharmacology ,Lecithin ,Group II Phospholipases A2 ,Phospholipases A ,chemistry.chemical_compound ,Phospholipase A2 ,food ,Oral administration ,Alzheimer Disease ,Medicine ,Animals ,Humans ,Antipyretic ,Analgesics ,biology ,business.industry ,Anti-Inflammatory Agents, Non-Steroidal ,Prodrug ,Rats ,Drug Combinations ,Phospholipases A2 ,Neuropsychology and Physiological Psychology ,chemistry ,Cyclooxygenase 2 ,Toxicity ,biology.protein ,Phosphatidylcholines ,Cyclooxygenase ,business ,medicine.drug - Abstract
DP-155 is a lipid prodrug of indomethacin that comprises the latter conjugated to lecithin at position sn-2 via a 5-carbon length linker. It is cleaved by phospholipase A2 (PLA)(2) to a greater extent than similar compounds with linkers of 2, 3, and 4 carbons. Indomethacin is the principal metabolite of DP-155 in rat serum and, after DP-155 oral administration, the half-life of the metabolite was 22 and 93 h in serum and brain, respectively, compared to 10 and 24 h following indomethacin administration. The brain to serum ratio was 3.5 times higher for DP-155 than for indomethacin. In vitro studies demonstrated that DP-155 is a selective cyclooxygenase (COX)-2 inhibitor. After it is cleaved, its indomethacin derivative nonselectively inhibits both COX-1 and -2. DP-155 showed a better toxicity profile probably due to the sustained, low serum levels and reduced maximal concentration of its indomethacin metabolite. DP-155 did not produce gastric toxicity at the highest acute dose tested (0.28 mmol/kg), while indomethacin caused gastric ulcers at a dose 33-fold lower. Furthermore, after repeated oral dosing, gastrointestinal and renal toxicity was lower (10- and 5-fold, respectively) and delayed with DP-155 compared to indomethacin. In addition to reduced toxicity, DP-155 had similar ameliorative effects to indomethacin in antipyretic and analgesia models. Moreover, DP-155 and indomethacin were equally efficacious in reducing levels of amyloid ss (Ass)42 in transgenic Alzheimer's disease mouse (Tg2576) brains as well as reducing Ass42 intracellular uptake, neurodegeneration, and inflammation in an in vitro AD model. The relatively high brain levels of indomethacin after DP-155 administration explain the equal efficacy of DP-155 despite its low systemic blood concentrations. Compared to indomethacin, the favored safety profile and equal efficacy of DP-155 establish the compound as a potential candidate for chronic use to treat AD-related pathology and for analgesia.
- Published
- 2007
50. The effect of different lipid based formulations on the oral absorption of lipophilic drugs: the ability of in vitro lipolysis and consecutive ex vivo intestinal permeability data to predict in vivo bioavailability in rats
- Author
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Amnon Hoffman and Arik Dahan
- Subjects
Male ,Antifungal Agents ,Chemistry, Pharmaceutical ,Lipolysis ,Anti-Inflammatory Agents ,Pharmaceutical Science ,Biological Availability ,Pharmacology ,Intestinal absorption ,Dexamethasone ,Griseofulvin ,Permeability ,chemistry.chemical_compound ,Structure-Activity Relationship ,Pharmacokinetics ,In vivo ,medicine ,Animals ,Rats, Wistar ,Triglycerides ,Intestinal permeability ,General Medicine ,medicine.disease ,Lipids ,Bioavailability ,Rats ,chemistry ,Intestinal Absorption ,Ex vivo ,Algorithms ,Biotechnology ,Forecasting - Abstract
The purpose of this study was to investigate the impact of different lipid based formulations of lipophilic drugs on in vitro solubilization and intestinal ex vivo permeability processes. Thereafter, to evaluate the ability of these in vitro and ex vivo results to predict the corresponding in vivo oral bioavailability data. The dissolution of dexamethasone and griseofulvin in long (LCT), medium (MCT) and short (SCT) chain triglyceride formulations was tested in a dynamic in vitro lipolysis model. Following the completion of the lipolysis, the permeability through the gut wall was tested in an ex vivo side-by-side diffusion chamber model. The absolute oral bioavailability of the drugs from the tested formulations was investigated in rats. The dynamic in vitro lipolysis experiments indicated an equivalent performance of the different formulations for dexamethasone, and a performance rank order of MCT>LCT>SCT>H(2)O for griseofulvin. In the subsequent ex vivo permeability studies, the SCT formulation caused enhanced permeation with doubled permeability coefficient for both drugs. The in vivo bioavailability of both drugs correlated well with the in vitro data, i.e., LCT=MCT=SCT for dexamethasone and MCT>LCT>SCT>H(2)O for griseofulvin, despite the significant augmented intestinal permeability produced by the SCT formulation. In conclusion, the in vitro lipolysis model was found to be useful in the intelligent optimization of oral lipid formulations for lipophilic drugs, even in the case where the intestinal permeability is enhanced by the formulation. The SCT vehicle showed to be a potential permeability enhancer; however, for class 2 compounds, the permeability does not correlate with in vivo bioavailability.
- Published
- 2006
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