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1.
Biotechnol Bioeng ; 119(8): 2088-2104, 2022 08.
Article in English | MEDLINE | ID: mdl-35437754

ABSTRACT

Host cell proteins (HCPs) are a significant class of process-related impurities commonly associated with the manufacturing of biopharmaceuticals. However, due to the increased use of crude enzymes as biocatalysts for modern organic synthesis, HCPs can also be introduced as a new class of impurities in chemical drugs. In both cases, residual HCPs need to be adequately controlled to ensure product purity, quality, and patient safety. Although a lot of attentions have been focused on defining a universally acceptable limit for such impurities, the risks associated with residual HCPs on product quality, safety, and efficacy often need to be determined on a case-by-case basis taking into consideration the residual HCP profile in the product, the dose, dosage form, administration route, and so forth. Here we describe the unique challenges for residual HCP control presented by the biocatalytic synthesis of an investigational stimulator of interferon genes protein agonist, MK-1454, which is a cyclic dinucleotide synthesized using Escherichia coli cell lysate overexpressing cyclic GMP-AMP synthase as a biocatalyst. In this study, a holistic characterization of residual protein impurities using a variety of analytical tools including nanoscale liquid chromatography coupled to tandem mass spectrometry, together with in silico immunogenicity prediction of identified proteins, facilitated risk assessment and guided process development to achieve adequate removal of residual protein impurities in MK-1454 active pharmaceutical ingredient.


Subject(s)
Proteins , Animals , CHO Cells , Cricetinae , Cricetulus , Humans , Pharmaceutical Preparations , Proteins/analysis , Risk Assessment
2.
Mol Pharm ; 15(9): 4038-4048, 2018 09 04.
Article in English | MEDLINE | ID: mdl-30016112

ABSTRACT

Reliable methods for the characterization of drug substances are critical for evaluating stability and bioavailability, especially in dosage formulations under varying storage conditions and usage. Such methods must also give information on the molecular identities and structures of drug substances and any potential byproducts of the formulation process, as well as providing a means of quantifying the relative amounts of these substances. For example, active pharmaceutical ingredients (APIs) are often formulated as ionic salts to improve the pharmaceutical properties of dosage forms; however, exposure of such formulations to elevated temperature and/or humidity can trigger the conversion of an ionic salt of an API to a neutral form with different properties, through a process known as disproportionation. It is particularly challenging to identify changes of pharmaceutical components in solid dosage formulations, which are complex heterogeneous mixtures of the API and excipient components (e.g., binders, disintegrants, and lubricants). In this study, we illustrate that ultra-wideline (UW) 35Cl solid-state NMR (SSNMR) can be used to characterize the disproportionation reaction of pioglitazone HCl (PiogHCl) in mixtures with metallic stearate excipients. 35Cl SSNMR can quantitatively detect the amount of PiogHCl in mixed samples within ±1 wt % and measure the degree of PiogHCl disproportionation in formulation samples stressed at high relative humidity and temperature. Unlike other methods used for characterizing disproportionation, our experiments directly probe the Cl- anions in both the intact salt and disproportionation products, revealing all of the chlorine-containing products in the solid-state chemical reaction without interfering signals from the formulation excipients.


Subject(s)
Drug Compounding/methods , Magnetic Resonance Spectroscopy/methods , Excipients/chemistry , Pioglitazone/chemistry , Sodium Chloride/chemistry , Solubility
3.
Mol Pharm ; 9(11): 3396-402, 2012 Nov 05.
Article in English | MEDLINE | ID: mdl-23025556

ABSTRACT

Amorphous solid dispersions of clotrimazole in the polymer Kollidon VA64 were prepared as films in concentrations from 0% to 100% in 10% by weight increments. Nanoindentation was performed on each film at 18% and 49% relative humidity to assess the effect of drug loading and humidity on the mechanical properties of the solid dispersions. Although the addition of clotrimazole to the polymer reduces the glass transition temperature of the system as measured by differential scanning calorimetry, the hardness, reduced elastic modulus, and storage modulus were found to increase to values greater than those of either pure component up to drug loadings of approximately 60% by weight. Further addition of clotrimazole to the system resulted in decreased hardness and moduli with increased drug load. Dynamic vapor sorption of the dispersions shows that the hygroscopicity of the system is reduced as clotrimazole is added to the polymer.


Subject(s)
Clotrimazole/chemistry , Drug Stability , Humidity , Povidone/chemistry , Calorimetry, Differential Scanning , Molecular Structure , Spectroscopy, Fourier Transform Infrared , Wettability
4.
J Pharm Biomed Anal ; 207: 114393, 2022 Jan 05.
Article in English | MEDLINE | ID: mdl-34607166

ABSTRACT

Recent advances in biocatalysis and directed enzyme evolution has led to a variety of enzymatically-driven, elegant processes for active pharmaceutical ingredient (API) production. For biocatalytic processes, quantitation of any residual protein within a given API is of great importance to ensure process robustness and quality, pure pharmaceutical products. Typical analytical methods for analyzing residual enzymes within an API, such as enzyme-linked immunosorbent assays (ELISA), colorimetric assays, and liquid chromatographic techniques, are limited for determining only the concentration of known proteins and require harsh solvents with high API levels for analysis. For the first time, total residual protein content in a small molecule API was quantitated using image analysis applied to SDS-PAGE. Herein, a proposed methodology for residual protein detection, quantitation, and size-based speciation is presented, in which an orthogonal technique is offered to traditional analysis methods, such as ELISA. Results indicate that our application of the analytical methodology is able to reliably quantitate both protein standards and the total residual protein present within a final API, with good agreement as compared to traditional ELISA results. Further, speciation of the residual protein within the API provides key information concerning the individual residual proteins present, including their molecular weight, which can lead to improved process development efforts for residual protein rejection and control. This analytical methodology thus offers an alternative tool for easily identifying, quantitating, and speciating residual protein content in the presence of small molecule APIs, with potential for wide applicability across industry for biocatalytic or directed enzyme evolution efforts within process development.


Subject(s)
Pharmaceutical Preparations , Electrophoresis, Polyacrylamide Gel , Solvents
5.
Pharmaceutics ; 13(12)2021 Nov 26.
Article in English | MEDLINE | ID: mdl-34959298

ABSTRACT

Co-precipitation is an emerging method to generate amorphous solid dispersions (ASDs), notable for its ability to enable the production of ASDs containing pharmaceuticals with thermal instability and limited solubility. As is true for spray drying and other unit operations to generate amorphous materials, changes in processing conditions during co-precipitation, such as solvent selection, can have a significant impact on the molecular and bulk powder properties of co-precipitated amorphous dispersions (cPAD). Using posaconazole as a model API, this work investigates how solvent selection can be leveraged to mitigate crystallization and maximize bulk density for precipitated amorphous dispersions. A precipitation process is developed to generate high-bulk-density amorphous dispersions. Insights from this system provide a mechanistic rationale to control the solid-state and bulk powder properties of amorphous dispersions.

6.
J Chromatogr A ; 1603: 1-7, 2019 Oct 11.
Article in English | MEDLINE | ID: mdl-31196588

ABSTRACT

In recent years, charged aerosol detection (CAD) has become a valuable tool for fast and efficient quantitative chromatographic analysis of drug substances with weak UV absorption. In analytical method development using CAD, the power function settings available in the instrument software are key for linearization of the signal response with respect to analyte concentration. However, the relatively poor understanding of the power function algorithm has limited a more widespread use of CAD for quantitative assays, especially in the late stage of method validation and GMP laboratories. Herein, we present an approach to understand the inner workings of the power function value (PFV), the PFV optimization algorithm, as well as a method to determine the optimum PFV based on the signals acquired at PFV = 1 (default CAD settings). The exponent and the constant in the PFV equation used for modeling follow a trend as a function of PFV. The CAD signal at any PFV was modeled based on the signal acquired at PFV = 1, the modelling was successful for two analytes at different concentration levels on two different CAD detectors of the same model. This method reveals the functionality of the PFV which substantially simplifies the workflow needed to optimize the detector signal. The accuracy between the experimental and theoretical results showed high correlation and always resulted in the same optimum PFV determined by both ways. The approach described in this investigation simplifies the selection of the optimum PFV at which the signal is more linear, the signal-to-noise is higher, and the area reproducibility is better. The power function algorithm elucidated herein enables determination of optimum PFV from minimal experimental output and excellent overall accuracy. This paper provides an approach that includes no data transformation outside the vendor software, a very important requirement to easily validate and report results in a GMP environment.


Subject(s)
Aerosols/analysis , Algorithms , Chromatography, High Pressure Liquid/instrumentation , Chromatography, High Pressure Liquid/standards , Pharmaceutical Preparations/analysis , Chemistry, Pharmaceutical , Reproducibility of Results
7.
Org Lett ; 10(14): 3037-40, 2008 Jul 17.
Article in English | MEDLINE | ID: mdl-18563906

ABSTRACT

The reactions of chiral benzyl carbocations bearing alpha-phenyl substituents with N-sulfonylated indoles afford 1,1,2-triarylalkanes with anti-selectivities. This outcome is a reversal of facial diastereoselectivity relative to Bach's alpha-alkyl-bearing benzyl cations. The reactions are promoted by either a Brønsted acid (TFA) or Lewis acid (BF3.OEt2), offering differential diastereoselectivities and reactivities. The electronic properties of both reacting partners strongly influence the reaction rates and the product diastereoselectivities and appear to operate under kinetic control. This chemistry provides an efficient access to sterically congested tetrasubstituted ethanes.


Subject(s)
Alkanes/chemical synthesis , Indoles/chemistry , Alkanes/chemistry , Alkylation , Benzene Derivatives/chemistry , Catalysis , Combinatorial Chemistry Techniques , Molecular Structure , Stereoisomerism
8.
Chem Commun (Camb) ; (4): 419-21, 2007 Jan 28.
Article in English | MEDLINE | ID: mdl-17220990

ABSTRACT

We report the first case of a pharmaceutical cocrystal formed between an inorganic acid and an active pharmaceutical ingredient (API), which enabled us to develop a stable crystalline and bioavailable solid dosage form for pharmaceutical development where otherwise only unstable amorphous free form or salts could have been used.


Subject(s)
Phosphates/chemistry , Phosphoric Acids/chemistry , Crystallization , Magnetic Resonance Spectroscopy , Models, Molecular , Molecular Structure , Phosphates/pharmacology
9.
J Pharm Biomed Anal ; 146: 86-95, 2017 Nov 30.
Article in English | MEDLINE | ID: mdl-28866472

ABSTRACT

Various techniques have been used to detect crystallization in amorphous solid dispersions (ASD). However, most of these techniques do not enable the detection of very low levels of crystallinity (<1%). The aim of the current study was to compare the sensitivity of second harmonic generation (SHG) microscopy with powder X-ray diffraction (XRPD) in detecting the presence of crystals in low drug loading amorphous solid dispersions. Amorphous solid dispersions of the poorly water soluble compounds, flutamide (FTM, 15wt.% drug loading) and ezetimibe (EZT, 30wt.% drug loading) with hydroxypropyl methylcellulose acetate succinate (HPMCAS) were prepared by spray drying. To induce crystallization, samples were subsequently stored at 75% or 82% relative humidity (RH) and 40°C. Crystallization was monitored by XRPD and by SHG microscopy. Solid state nuclear magnetic resonance spectroscopy (ssNMR) was used to further investigate crystallinity in selected samples. For flutamide, crystals were detected by SHG microscopy after 8days of storage at 40°C/82% RH, whereas no evidence of crystallinity could be observed by XRPD until 26days. Correspondingly, for FTM samples stored at 40°C/75% RH, crystals were detected after 11days by SHG microscopy and after 53days by XRPD. The evolution of crystals, that is an increase in the number and size of crystalline regions, with time could be readily monitored from the SHG images, and revealed the formation of needle-shaped crystals. Further investigation with scanning electron microscopy indicated an unexpected mechanism of crystallization, whereby flutamide crystals grew as needle-shaped projections from the surface of the spray dried particles. Similarly, EZT crystals could be detected at earlier time points (15days) with SHG microscopy relative to with XRPD (60days). Thus, SHG microscopy was found to be a highly sensitive method for detecting and monitoring the evolution of crystals formed from spray dried particles, providing much earlier detection of crystallinity than XRPD under comparable run times.


Subject(s)
Ezetimibe/chemistry , Flutamide/chemistry , Methylcellulose/analogs & derivatives , Crystallization/methods , Desiccation/methods , Humidity , Methylcellulose/chemistry , Powders/chemistry , Second Harmonic Generation Microscopy/methods , Solubility , X-Ray Diffraction/methods
10.
J Chromatogr A ; 1064(2): 193-204, 2005 Feb 04.
Article in English | MEDLINE | ID: mdl-15739887

ABSTRACT

Thermodynamic studies were performed on 12 pairs of N-trifluoroacetyl-O-alkyl nipecotic acid ester enantiomers on diluted permethylated beta-cyclodextrin stationary phase (CP Chirasil-Dex CB). The influence of ester alkyl group structure on interaction with permethylated beta-cyclodextrin (Me-CD) and enantioselectivity was studied. The types of alkyl groups studied included n-alkyl (C1-C5) and groups containing branching at differing locations relative to the chiral center of the molecule. The results show that for a given molecular weight, the n-alkyl esters have stronger interactions with Me-CD than esters containing branched alkyl groups. However, although having weaker interactions with Me-CD, esters containing alpha-branched alkyl groups exhibit higher enantioselectivity than the corresponding n-alkyl or beta-branched isobutyl esters. From the retention data, thermodynamic parameters were estimated using the retention increment method and enthalpy-entropy compensation plots (ln R' versus deltaH) were constructed. The results suggest that ester enantiomers with branching at the alpha-carbon of the ester alkyl group have additional and/or different types of enantioselective interactions with Me-CD than the C1-C5 n-alkyl esters or beta-branched isobutyl ester. In order to obtain a qualitative sense of the interaction with Me-CD, structures of the diastereomeric complexes formed between Me-CD and some of the ester enantiomers were modeled using simulated annealing molecular dynamics.


Subject(s)
Nipecotic Acids/chemistry , beta-Cyclodextrins/chemistry , Indicators and Reagents , Models, Molecular , Stereoisomerism , Temperature , Thermodynamics
11.
J Pharm Sci ; 99(12): 4973-81, 2010 Dec.
Article in English | MEDLINE | ID: mdl-20821397

ABSTRACT

(1S,5R)-2-{[(4S)-azepan-4-ylamino]carbonyl}-7-oxo-2,6-diazabicyclo[3.2.0] heptane-6-sulfonic acid (Compound 1) is a ß-lactamase inhibitor for intravenous administration. The objective of this preformulation study was to determine the most appropriate form of the API for development. Compound 1 can exist as an amorphous solid and four distinct crystalline phases A, B, C, and D in the solid state. Slurry experiments along with analysis of physicochemical properties were used to construct a phase diagram and select the most suitable form of the API for development. In aqueous formulations, the dihydrate form of the API was predominant and, due to the more favorable solubility and dissolution profile required for preclinical and clinical studies, a metastable form of the API was selected, and the risks associated with developing this form were evaluated.


Subject(s)
Chemistry, Pharmaceutical , Injections, Intravenous , Pharmaceutical Preparations/chemistry , Solubility , beta-Lactamases/chemistry , Animals , Bridged Bicyclo Compounds, Heterocyclic/administration & dosage , Bridged Bicyclo Compounds, Heterocyclic/chemistry , Chemical Phenomena , Crystallization , Drug Stability , Hydrogen Bonding , Molecular Structure , Molecular Weight , Particle Size , Pharmaceutical Preparations/administration & dosage , Water/chemistry , beta-Lactamase Inhibitors
12.
J Pharm Sci ; 97(9): 3721-6, 2008 Sep.
Article in English | MEDLINE | ID: mdl-18240276

ABSTRACT

We report formation and characterization of the first pharmaceutically acceptable and stable molecular complex of a mono-HCl salt of Compound 1 with HCl. The novelty of this discovery is due to the fact that there is only one major basic site in the molecule. Thus this complex is reminiscent of other noncovalent crystalline forms including solvates, hydrates, cocrystals and others. To the best of our knowledge, the observed bis-HCl salt appears to be the first example of an active pharmaceutical ingredient in a form of a stable HCl complex. The paucity of stable complexes of APIs with HCl is likely due to the fact that HCl is a gas at ambient conditions and can easily evaporate compromising physical (and chemical) stability of a drug. The bis-HCl salt was chemically/physically stable at low humidity and the molecular HCl stays in the lattice until heated above 140 degrees C under nitrogen flow. Structure solution from powder diffraction using the Monte Carlo simulated annealing method as well as variable temperature ATR-FTIR suggest the possibility of weak hydrogen bonding between the molecular HCl and the nitrogen atom of the amide group. Two years later after the search for a suitable pharmaceutical salt began, the elusive conventional mono-HCl salt was obtained serendipitously concluding the lengthy quest for a regular salt. This work emphasizes the necessity to be open-minded during the salt selection process. It also highlights the difficult, lengthy and often serendipitous path of finding the most appropriate form of an API for pharmaceutical development.


Subject(s)
Hydrochloric Acid/chemistry , Pharmaceutical Preparations , Salts/chemistry , Crystallization , Hydrogen Bonding , Molecular Structure , Monte Carlo Method , Spectroscopy, Fourier Transform Infrared
13.
J Am Chem Soc ; 129(15): 4714-23, 2007 Apr 18.
Article in English | MEDLINE | ID: mdl-17385859

ABSTRACT

A molecular mechanism for nucleation for the solid-state polymorph transformation of terephthalic acid is presented. New methods recently developed in our group, aimless shooting and likelihood maximization, are employed to construct a model for the reaction coordinate for the two system sizes studied. The reaction coordinate approximation is validated using the committor probability analysis. The transformation proceeds via a localized, elongated nucleus along the crystal edge formed by fluctuations in the supramolecular synthons, suggesting a nucleation and growth mechanism in the macroscopic system.


Subject(s)
Phthalic Acids/chemistry , Crystallization , Models, Molecular , Molecular Structure , Probability
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