Your search keyword '"Robert J. Fisher"' showing total 10 results

1. Risk Considerations on Developing a Continuous Crystallization System for Carbamazepine

Author

Adil Mohammad, David Acevedo, Mark J. Goldman, Alexander L. Brayton, Xiaochuan Yang, Thomas F. O’Connor, Shuaili Li, Fan He, Robert J. Fisher, Huiquan Wu, Celia N. Cruz, Ryan Shaw, and Naresh Pavurala

Subjects

010405 organic chemistry, business.industry, Process (engineering), Computer science, Process analytical technology, media_common.quotation_subject, Organic Chemistry, 010402 general chemistry, 01 natural sciences, Automation, 0104 chemical sciences, law.invention, law, Pharmaceutical manufacturing, Systems design, Quality (business), Product (category theory), Physical and Theoretical Chemistry, Crystallization, Process engineering, business, media_common

Abstract

Continuous manufacturing (CM) is an emerging technology in the pharmaceutical manufacturing sector, and the understanding of the impact on product quality is currently evolving. As the final purification and isolation step, crystallization has a significant impact on the final physicochemical properties of drug substance and is considered a critical process step in achieving the continuous manufacturing of drug substances. Although many publications previously focused on various innovative techniques to continuously make crystals with desired properties, engineering difficulties such as system design, automation, and integration with process analytical technology (PAT) tools have not been thoroughly discussed. Here, we focus on how to develop a continuous crystallization system, from the perspective of process engineering, and the related risk considerations on product quality. Specifically, we designed and built an automated two-stage mixed suspension mixed product removal (MSMPR) crystallization platfor...

Published

2017

2. Gastric Cancer-Specific Protein Profile Identified Using Endoscopic Biopsy Samples via MALDI Mass Spectrometry

Author

Akira Oshima, Jamie L. Allen, Simona Colantonio, Richard M. Caprioli, Michelle L. Reyzer, Il Ju Choi, Hee Sung Kim, Robert J. Fisher, Chan Gyoo Kim, Oleg Chertov, Jeffrey E. Green, and Hark Kyun Kim

Subjects

Proteomics, Pathology, medicine.medical_specialty, Biopsy, Analytical chemistry, Mass spectrometry, Sensitivity and Specificity, Biochemistry, Article, Defensins, Stomach Neoplasms, Positive predicative value, Gastroscopy, Biomarkers, Tumor, medicine, Humans, Calgranulin, Gastrointestinal cancer, Leukocyte L1 Antigen Complex, Models, Statistical, medicine.diagnostic_test, biology, Chemistry, Cancer, General Chemistry, medicine.disease, Case-Control Studies, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, biology.protein

Abstract

To date, proteomic analyses on gastrointestinal cancer tissue samples have been performed using surgical specimens only, which are obtained after a diagnosis is made. To determine if a proteomic signature obtained from endoscopic biopsy samples could be found to assist with diagnosis, frozen endoscopic biopsy samples collected from 63 gastric cancer patients and 43 healthy volunteers were analyzed using matrix-assisted laser desorption/ionization (MALDI) mass spectrometry. A statistical classification model was developed to distinguish tumor from normal tissues using half the samples and validated with the other half. A protein profile was discovered consisting of 73 signals that could classify 32 cancer and 22 normal samples in the validation set with high predictive values (positive and negative predictive values for cancer, 96.8% and 91.3%; sensitivity, 93.8%; specificity, 95.5%). Signals overexpressed in tumors were identified as alpha-defensin-1, alpha-defensin-2, calgranulin A, and calgranulin B. A protein profile was also found to distinguish pathologic stage Ia (pT1N0M0) samples (n = 10) from more advanced stage (Ib or higher) tumors (n = 48). Thus, protein profiles obtained from endoscopic biopsy samples may be useful in assisting with the diagnosis of gastric cancer and, possibly, in identifying early stage disease.

Published

2010

3. Production of Norfloxacin Nanosuspensions Using Microfluidics Reaction Technology through Solvent/Antisolvent Crystallization

Author

Robert J. Fisher, Steven V. Mesite, and Thomai Panagiotou

Subjects

Range (particle radiation), Supersaturation, Materials science, General Chemical Engineering, Microfluidics, Mixing (process engineering), Nanotechnology, General Chemistry, Industrial and Manufacturing Engineering, law.invention, law, Particle, Particle size, Crystallization, Antibacterial agent

Abstract

Hydrophobic active pharmaceutical ingredients (APIs) are often difficult to deliver effectively because of formulation limitations. Nanosuspensions of such drugs may be used to increase bioavailability and offer a variety of delivery options including injection, inhalation, oral, and transdermal. Microfluidics reaction technology (MRT) was used successfully to produce submicrometer API suspensions via a continuous process that involves solvent/antisolvent crystallization. As proof of concept, nanosuspensions of norfloxacin (NFN), an antibacterial agent, were produced varying the key parameters of the technology. The nanosuspensions had narrow particle size distributions and median particle sizes in the range of 170-350 nm. The particle size depends on the supersaturation ratio and energy dissipation expressed as processing pressure. However, the particle size was found to be insensitive to the presence of the surfactant used. The crystalline structure of NFN was not affected by the mixing intensity but by the solvent/antisolvent system. This "bottom up" process for creating nanosuspensions was compared to a "top down" process, in which NFN nanosuspensions were created as a result of particle size reduction. It was found that the "bottom up" process was substantially more efficient and resulted in smaller particles than the "top down" process. MRT is based on an impinging jet reactor design with jet velocities and energy dissipation that is orders of magnitude higher than those of conventional impinging jet reactors. The technology provides precise control of the feed rates and the subsequent location and intensity of mixing of the reactants. It may be the best choice economically due to its process intensification character that minimizes energy requirements and the proven scalability of the reactor.

Published

2009

4. Structural Examination of Ring-Closing Metathesis-Derived 15-Member Macrocycles as Grb2 SH2 Domain-Binding Tetrapeptide Mimetics

Author

Karen M. Worthy, Terrence R. Burke, Fa Liu, Robert J. Fisher, and Lakshman Bindu

Subjects

Binding Sites, Macrocyclic Compounds, Tetrapeptide, Stereochemistry, Chemistry, Molecular Mimicry, Organic Chemistry, Molecular Conformation, Stereoisomerism, Metathesis, Ring (chemistry), Chemical synthesis, Affinities, Article, src Homology Domains, Ring-closing metathesis, Cyclization, Binding site, Oligopeptides, GRB2 Adaptor Protein

Abstract

Ring-closing metathesis (RCM) was employed to join carboxy-terminal alkenyl glycine side chains together with vinyl- and allyl-functionality appended to the beta-methylene of amino-terminal phosphotyrosyl (pTyr) mimetics. This required the synthesis of a variety of new pTyr mimetics, including a novel aza-containing analogue. Many of the resulting 15-member macrocyclic tetrapeptide mimetics exhibited low nanomolar Grb2 SH2 domain-binding affinities in spite of the fact that differing ring junction stereochemistries and geometries of the RCM-derived double bond were employed. The finding that significant latitude exists in the structural requirements for ring closure may facilitate the development of therapeutically relevant macrocyle-based Grb2 SH2 domain-binding antagonists. The synthetic approaches used in this study may also find application to peptide mimetics directed at other biological targets.

Published

2007

5. Examination of Acylated 4-Aminopiperidine-4-carboxylic Acid Residues in the Phosphotyrosyl+1 Position of Grb2 SH2 Domain-Binding Tripeptides

Author

Marc C. Nicklaus, Terrence R. Burke, Lakshman Bindu, Kyeong Lee, Karen M. Worthy, Robert J. Fisher, Sang-Uk Kang, Shinya Oishi, Rajeshri G. Karki, and Won Jun Choi

Subjects

Models, Molecular, chemistry.chemical_classification, Binding Sites, Dipeptide, Molecular model, Stereochemistry, medicine.drug_class, Acylation, Carboxylic acid, Molecular Conformation, Peptide, Carboxamide, Tripeptide, src Homology Domains, chemistry.chemical_compound, Residue (chemistry), Piperidines, chemistry, Drug Discovery, Peptide synthesis, medicine, Molecular Medicine, Phosphotyrosine, Oligopeptides, GRB2 Adaptor Protein

Abstract

A 4-aminopiperidine-4-carboxylic acid residue was placed in the pTyr+1 position of a Grb2 SH2 domain-binding peptide to form a general platform, which was then acylated with a variety of groups to yield a library of compounds designed to explore potential binding interactions, with protein features lying below the betaD strand. The highest affinities were obtained using phenylethyl carbamate and phenylbutyrylamide functionalities.

Published

2007

6. Hydrazone- and Hydrazide-Containing N-Substituted Glycines as Peptoid Surrogates for Expedited Library Synthesis: Application to the Preparation of Tsg101-Directed HIV-1 Budding Antagonists

Author

Fa Liu, Terrence R. Burke, M. Javad Aman, Eric O. Freed, Catherine S. Adamson, Andrew G. Stephen, Robert J. Fisher, and Karine Gousset

Subjects

Proline, Anti-HIV Agents, Stereochemistry, Glycine, Hydrazone, HIV Budding, Hydrazide, Biochemistry, Article, Peptoids, chemistry.chemical_compound, Peptide Library, TSG101, Amino Acid Sequence, Physical and Theoretical Chemistry, Peptide library, chemistry.chemical_classification, Oligopeptide, Endosomal Sorting Complexes Required for Transport, Organic Chemistry, Hydrazones, Peptoid, Combinatorial chemistry, DNA-Binding Proteins, Hydrazines, chemistry, HIV-1, Oligopeptides, Transcription Factors

Abstract

Replacing the Pro6 in the p6(Gag)-derived 9-mer "P-E-P-T-A-P-P-E-E" with N-substituted glycine (NSG) residues is problematic. However, incorporation of hydrazone amides ("peptoid hydrazones") can be readily achieved in library fashion. Furthermore, reduction of these hydrazones to N-substituted "peptoid hydrazides" affords a facile route to library diversification. This approach is demonstrated by application to Tsg101-binding compounds designed as potential HIV budding antagonists. [reaction: see text]

Published

2006

7. Examination of Phosphoryl-Mimicking Functionalities within a Macrocyclic Grb2 SH2 Domain-Binding Platform

Author

Sarah J. Choyke, Sang-Uk Kang, Pathirage G. Dharmawardana, Zhen-Dan Shi, Robert J. Fisher, Terrence R. Burke, Karen M. Worthy, Lakshman Bindu, and Donald P. Bottaro

Subjects

Macrocyclic Compounds, Stereochemistry, Enzyme-Linked Immunosorbent Assay, Peptide, Context (language use), macromolecular substances, SH2 domain, Binding, Competitive, Chemical synthesis, src Homology Domains, Structure-Activity Relationship, chemistry.chemical_compound, Drug Discovery, Binding site, Surface plasmon resonance, Adaptor Proteins, Signal Transducing, GRB2 Adaptor Protein, chemistry.chemical_classification, Binding Sites, Dipeptide, Molecular Mimicry, Surface Plasmon Resonance, Affinities, Organophosphates, enzymes and coenzymes (carbohydrates), chemistry, Molecular Medicine

Abstract

Reported herein are the design, synthesis, and Grb2 SH2 domain-binding affinities of several phosphoryl-mimicking groups displayed within the context of a conformationally constrained macrocyclic platform. With use of surface plasmon resonance techniques, single-digit nanomolar affinities were exhibited by phosphonic acid and malonyl-containing diacidic phosphoryl mimetics (for 4h and 4g, K(D) = 1.47 and 3.62 nM, respectively). Analogues containing monoacidic phosphoryl mimetics provided affinities of K(D) = 16-67 nM. Neutral phosphoryl-mimicking groups did not show appreciable binding.

Published

2005

8. Design and Synthesis of Conformationally Constrained Grb2 SH2 Domain Binding Peptides Employing α-Methylphenylalanyl Based Phosphotyrosyl Mimetics

Author

Robert J. Fisher, Lakshman Bindu, Terrence R. Burke, Shinya Oishi, Karen M. Worthy, Xiangzhu Wang, Sang-Uk Kang, Rajeshri G. Karki, and Marc C. Nicklaus

Subjects

Models, Molecular, Phosphopeptides, Tetrahydronaphthalenes, Stereochemistry, Phenylalanine, Molecular Conformation, Organophosphonates, SH2 domain, src Homology Domains, Structure-Activity Relationship, Position (vector), Drug Discovery, Phosphotyrosine, Adaptor Proteins, Signal Transducing, GRB2 Adaptor Protein, Binding Sites, biology, Chemistry, Molecular Mimicry, Stereoisomerism, Combinatorial chemistry, Cyclization, biology.protein, Molecular Medicine, GRB2, Protein Binding

Abstract

Previous work has shown that incorporation of either 1-aminocyclohexanecarboxylic acid (Ac6c) or alpha-methyl-p-phosphonophenylalanine ((alpha-Me)Ppp) in the phosphotyrosyl (pTyr) C-proximal position (pY + 1 residue) of Grb2 SH2 domain binding peptides confers high affinity. The tetralin-based (S)-2-amino-6-phosphonotetralin-2-carboxylic acid (Atc(6-PO3H2)) simultaneously presents structural features of both (alpha-Me)Ppp and Ac6c residues. The current study compares the affinity of this tetralin hybrid Atc(6-PO3H2) versus Ac6c and (alpha-Me)Ppp residues when incorporated into the pY + 1 position of a high-affinity Grb2 SH2 domain binding tripeptide platform. The highest binding affinity (KD = 14.8 nM) was exhibited by the (alpha-Me)Ppp-containing parent, with the corresponding Ac6c-containing peptide being nearly 2-fold less potent (KD = 23.8 nM). The lower KD value was attributable primarily to a 50% increase in off-rate. Replacement of the Ac6c residue with the tetralin-based hybrid resulted in a further 4-fold decrease in binding affinity (KD = 97.8 nM), which was the result of a further 6-fold increase in off-rate, offset by an approximate 45% increase in on-rate. Therefore, by incorporation of the key structural components found in (alpha-Me)Ppp into the Ac6c residue, the tetralin hybrid does enhance binding on-rate. However, net binding affinity is decreased due to an associated increase in binding off-rate. Alternatively, global conformational constraint of an (alpha-Me)Ppp-containing peptide by beta-macrocyclization did result in pronounced elevation of binding affinity, which was achieved primarily through a decrease in the binding off-rate. Mathematical fitting using a simple model that assumed a single binding site yielded an effective KD of 2.28 nM. However this did not closely approximate the data obtained. Rather, use of a complex model that assumed two binding sites resulted in a very close fit of data and provided KD values of 97 pM and 72 nM for the separate sites, respectively. Therefore, although local conformational constraint in the pY + 1 residue proved to be deleterious, global conformational constraint through beta-macrocyclization achieved higher affinity. Similar beta-macrocyclization may potentially be extended to SH2 domain systems other than Grb2, where bend geometries are required.

Published

2005

9. Synthesis of a 5-Methylindolyl-Containing Macrocycle That Displays Ultrapotent Grb2 SH2 Domain-Binding Affinity

Author

Karen M. Worthy, Lindsey R. Roberts, Kyeong Lee, Robert J. Fisher, Terrence R. Burke, Zhen-Dan Shi, and Chang-Qing Wei

Subjects

Models, Molecular, Indoles, Molecular model, Stereochemistry, medicine.drug_class, Molecular Conformation, Antineoplastic Agents, Carboxamide, SH2 domain, Chemical synthesis, src Homology Domains, Growth factor receptor, Cell Line, Tumor, Drug Discovery, medicine, Humans, biology, Chemistry, Molecular Mimicry, Stereoisomerism, Ligand (biochemistry), Cyclization, Docking (molecular), biology.protein, Molecular Medicine, GRB2, biological phenomena, cell phenomena, and immunity, Oligopeptides, Protein Binding

Abstract

The growth factor receptor-bound protein 2 (Grb2) is an SH2 domain-containing docking module that represents an attractive target for anticancer therapeutic intervention. Here, a ring-closing metathesis approach is utilized to synthesize a 5-methylindolyl-containing tetrapeptide mimetic (6) that exhibits unprecedented in vitro Grb2 SH2 domain-binding affinity (K(d) = 93 pM). Key to the preparation of 6 is the enantioselective synthesis of (2S)-2-(3-(5-methylindolyl)methyl)pent-4-enylamine (12) as one of two ring-closing segments.

Published

2004

10. Initial Profile Development in Melt Spinning

Author

Roger I. Tanner, Robert J. Fisher, and Morton M. Denn

Subjects

Materials science, General Engineering, Composite material, Melt spinning

Published

1980