10 results on '"Amnon Hoffman"'
Search Results
2. Myristoylation Confers Oral Bioavailability and Improves the Bioactivity of c(MyD 4–4), a Cyclic Peptide Inhibitor of MyD88
- Author
-
Amnon Hoffman, Adi Schumacher-Klinger, Shira Dishon, Chaim Gilon, and Gabriel Nussbaum
- Subjects
Administration, Oral ,Biological Availability ,Pharmaceutical Science ,Inflammation ,medicine.disease_cause ,Myristic Acid ,Peptides, Cyclic ,Proinflammatory cytokine ,Autoimmunity ,Mice ,Drug Discovery ,medicine ,Animals ,Humans ,Receptor ,Myristoylation ,Autoimmune disease ,Innate immune system ,Chemistry ,Toll-Like Receptors ,Signal transducing adaptor protein ,medicine.disease ,Mice, Inbred C57BL ,HEK293 Cells ,Myeloid Differentiation Factor 88 ,Cancer research ,Molecular Medicine ,Female ,medicine.symptom ,Protein Processing, Post-Translational - Abstract
Myeloid differentiation primary response 88 (MyD88) is an intracellular adaptor protein central to the signaling of multiple receptors involved in inflammation. Since innate immune inflammation promotes autoimmunity, MyD88 is an attractive target in autoimmune disease. We previously developed c(MyD 4-4), a novel cyclic peptide competitive inhibitor of MyD88 dimerization that is metabolically stable. Parenteral administration of c(MyD 4-4) reduces disease severity in a mouse model of the human autoimmune disease multiple sclerosis. We now show that N-terminal myristoylation of c(MyD 4-4) enhances the competitive inhibition of MyD88 dimerization in living cells, leading to improved inhibition of the Toll-like receptor and IL-1 receptor signaling. Importantly, myristoylation converts c(MyD 4-4) to an orally bioavailable inhibitor of MyD88. Oral administration of c(MyD 4-4) significantly lowered the inflammatory cytokines secreted by peripheral autoimmune T cells in mice immunized with myelin antigens and ameliorated disease severity in the mouse model of multiple sclerosis. Taken together, we show the conversion of a protein active region to a metabolically stable, selective cyclic peptide that is orally bioavailable.
- Published
- 2019
- Full Text
- View/download PDF
3. Activity, Reduced Toxicity, and Scale-Up Synthesis of Amphotericin B-Conjugated Polysaccharide
- Author
-
Diana E. Ickowicz, Shimon Farber, Amnon Hoffman, Abraham J. Domb, Itzhack Polacheck, Sarah Kagan, and Edward Sionov
- Subjects
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.
- Published
- 2014
- Full Text
- View/download PDF
4. Carbamoylphosphonates Control Tumor Cell Proliferation and Dissemination by Simultaneously Inhibiting Carbonic Anhydrase IX and Matrix Metalloproteinase-2. Toward Nontoxic Chemotherapy Targeting Tumor Microenvironment
- Author
-
Amnon Hoffman, Eli Breuer, Reuven Reich, Alfonso Maresca, Alessio Innocenti, Claudiu T. Supuran, and Ainelly Veerendhar
- Subjects
Tumor microenvironment ,Chemistry ,Organophosphonates ,Cancer ,Antineoplastic Agents ,Matrix metalloproteinase ,medicine.disease ,Isozyme ,Cell membrane ,medicine.anatomical_structure ,Biochemistry ,Cell culture ,Cell Line, Tumor ,Drug Discovery ,Cancer cell ,Tumor Microenvironment ,Extracellular ,Cancer research ,medicine ,Humans ,Matrix Metalloproteinase 2 ,Molecular Medicine ,Protease Inhibitors ,Carbonic Anhydrase Inhibitors ,Carbonic Anhydrases - Abstract
Carbamoylphosphonates (CPOs) have been identified as inhibitors of matrix metalloproteinases (MMPs) and as orally active, bioavailable, and safe antimetastatic agents. In this article, we focus on the direct antitumor activity of the CPOs. We discovered that CPOs also inhibit carbonic anhydrases (CAs), especially the IX and XII isoforms identified as cancer promoting factors. Thus, CPOs can be regarded as novel nontoxic drug candidates for tumor microenvironment targeted chemotherapy acting by two synergistic mechanisms, namely, inhibiting CAs and MMPs simultaneously. We have also demonstrated that the ionized CPO acid is unable to cross the cell membrane and thus limited to interact with the extracellular domains of isozymes CAIX and CAXII. Finally, applying CPOs against cancer cells in hypoxic conditions resulted in the dose dependent release of lactate dehydrogenase, confirming the direct interaction of the CPOs with the cancer related isozymes CAIX and XII and thereby promoting cellular damage.
- Published
- 2012
- Full Text
- View/download PDF
5. The Effect of Multiple N-Methylation on Intestinal Permeability of Cyclic Hexapeptides
- Author
-
Amnon Hoffman, Sarit Greenberg, Horst Kessler, Florian Opperer, Chaim Gilon, Burkhardt Laufer, Jayanta Chatterjee, and Oded Ovadia
- Subjects
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.
- Published
- 2011
- Full Text
- View/download PDF
6. Polysaccharide Pharmacokinetics: Amphotericin B Arabinogalactan Conjugate—A Drug Delivery System or a New Pharmaceutical Entity?
- Author
-
Abraham J. Domb, Shimon Farber, Amnon Hoffman, Itzhack Polacheck, and Anna Elgart
- Subjects
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.
- Published
- 2010
- Full Text
- View/download PDF
7. The Role of P-Glycoprotein in Intestinal Transport versus the BBB Transport of Tetraphenylphosphonium
- Author
-
Amnon Hoffman, Hila Zohar-Kontante, Lola Weiss, Igal Madar, Sara Eyal, and Avi Swed
- Subjects
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.
- Published
- 2009
- Full Text
- View/download PDF
8. Novel <scp>d</scp>-Xylose Derivatives Stimulate Muscle Glucose Uptake by Activating AMP-Activated Protein Kinase α
- Author
-
Moriya Ben Yakir, Daphna Sandovski, Anna Elgart, Guy Cohen, Shlomo Sasson, Amnon Hoffman, Erol Cerasi, Ofer Shamni, Arie Gruzman, Yehoshua Katzhendler, and Evgenia Alpert
- Subjects
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.
- Published
- 2008
- Full Text
- View/download PDF
9. 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
- Author
-
Reuven Reich, Bashir Qadri, Julia Frant, Rivka Hadar, Yiffat Katz, Eli Breuer, Amnon Hoffman, and Sudhakar R. Bhusare
- Subjects
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.
- Published
- 2008
- Full Text
- View/download PDF
10. A Peptide Prodrug Approach for Improving Bisphosphonate Oral Absorption
- Author
-
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
- Subjects
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.
- Published
- 2000
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.