Macrolide and Ketolide Antibiotic Separation by Reversed Phase High Performance Liquid Chromatography

Lingerfelt, Brian, Champney, W. Scott

01 July 1999

Twenty different macrolide and ketolide antibiotics were analyzed by reversed phase high performance liquid chromatography on an ODS-2 cartridge column. Each of these compounds was uniquely separated and purified by varying the flow rate. Retention times of the individual drugs were proportional to the flow rate of the mobile phase. Recovery of antimicrobial activity for most of the drugs was greater than 90% based on a microbiological assay of material recovered from the column. Retention times were related to structural differences between these antimicrobial agents.

ketolide antibiotics

macrolide antibiotics

reversed phase HPLC

Biomedical Sciences

Caracterização físico-química da foliculotrofina humana (hFSH) recombinante e de suas subunidades, por cromatografia líquida de alta eficiência (HPLC) em fase reversa: comparação com a preparação de referência de hFSH de origem hipofisária do \"National Hormone and Pituitary Program\" dos EUA / Physico-chemical characterization of human recombinant follicle-stimulating hormone (hFSH) and its subunits by reversed-phase high-performance liquid chromatography (RP-HPLC): comparison with pituitary hFSH reference preparation from National Hormone and Pituitary Program from USA

Renan Fernandes Loureiro

06 November 2006

Um método de cromatografia líquida de alta eficiência por fase reversa (RP-HPLC) para análise qualitativa e quantitativa do hormônio folículo estimulante humano íntegro (hFSH), foi estabelecido e validado quanto à exatidão, precisão e sensibilidade. O FSH humano é um hormônio glicoprotéico dimérico largamente utilizado em medicina reprodutiva tanto para diagnóstico quanto para terapia. A metodologia desenvolvida preserva a integridade da proteína, permitindo a análise da forma heterodimérica intacta, e não somente de suas subunidades, como é normalmente obtida na maioria das condições geralmente empregadas. Esta técnica foi também utilizada para a comparação da hidrofobicidade relativa de preparações de hFSH hipofisária, urinária e derivadas de células de ovário de hamster chinês (CHO) bem como de outros dois hormônios glicoprotéicos, sintetizados na hipófise anterior: hormônio humano estimulante da tireóide (hTSH) e hormônio luteinizante humano (hLH). O menos hidrofóbico dos três hormônios analisados foi o hFSH, seguido do hTSH e do hLH. Uma diferença significativa (p<0,005) foi observada entre o tempo de retenção (tR) das preparações hipofisária e recombinante de hFSH, refletindo diferenças estruturais nas suas cadeias de carboidratos. Duas isoformas principais foram detectadas no hFSH urinário, incluindo uma forma que foi significativamente diferente (p<0,005) das preparações hipofisária e recombinante. Foram demonstradas linearidade da curva dose-resposta (r=0,9965, n=15) para esta metodologia de RP-HPLC, bem como uma precisão inter-ensaio, cujo coeficiente de variação é menor que 4%, para a quantificação de diferentes preparações de hFSH e uma sensibilidade da ordem de 40 ng. Foram também analisados o comportamento cromatográfico e a hidrofobicidade relativa das subunidades individuais das preparações recombinantes e hipofisária de hFSH. Além disso, a exata massa molecular das subunidades individuais de hFSH e do heterodímero foram simultaneamente determinadas por espectrometria de massa MALDI-TOF. A presente metodologia representa, em nossa opinião, uma ferramenta essencial para a caracterização e controle de qualidade deste hormônio, que ainda não consta das principais farmacopéias. / A reversed-phase high-performance liquid chromatography (RP-HPLC) method for the qualitative and quantitative analysis of intact human follicle-stimulating hormone (hFSH) was established and validated for accuracy, precision and sensitivity. Human FSH is a dimeric glycoprotein hormone widely used as a diagnostic analyte and as therapeutic product in reproductive medicine. The technique developed preserves the protein integrity, allowing the analysis of the intact heterodimeric form rather than just of its subunits, as it is the case for the majority of the conditions currently employed. This methodology has also been employed for comparing the relative hydrophobicity of pituitary, urinary and two Chinese hamster ovary (CHO)-derived hFSH preparations, as well as of two other related glycoprotein hormones of the anterior pituitary: human thyroid-stimulating hormone (hTSH) and human luteinizing hormone (hLH). The least hydrophobic of the three glycohormones analyzed was hFSH, followed by hTSH and hLH. A significant difference (p<0.005) was observed in tR between the pituitary and recombinant hFSH preparations, reflecting structural differences in their carbohydrate moieties. Two main isoforms were detected in urinary hFSH, including a form which was significantly different (p<0.005) for the pituitary and recombinant preparations. The linearity of the dose-response curve (r = 0.9965, n = 15) for this RP-HPLC methodology, as well as an inter-assay precision with relative standard deviation less than 4% for the quantification of different hFSH preparations and a sensitivity of the order of 40 ng, were demonstrated. The chromatographic behavior and relative hydrophobicity of the individual subunits of the pituitary and recombinant preparations were also analyzed. Furthermore, the accurate molecular mass of the individual hFSH subunits and of the heterodimer were simultaneously determined by matrix-assisted laser desorption ionization time-of-flight mass spectral analysis (MALDI-TOF-MS). The present methodology represents, in our opinion, an essential tool for characterization and quality control of this hormone that is not yet described in the main pharmacopoeias.

follicle-stimulating hormone

glycohormone subunit

MALDI-TOF-MS

reversed-phase HPLC

experimental data

FSH

gonadotropins

liquid column chromatography

pituitary hormones

TSH

Caracterização físico-química da foliculotrofina humana (hFSH) recombinante e de suas subunidades, por cromatografia líquida de alta eficiência (HPLC) em fase reversa: comparação com a preparação de referência de hFSH de origem hipofisária do \"National Hormone and Pituitary Program\" dos EUA / Physico-chemical characterization of human recombinant follicle-stimulating hormone (hFSH) and its subunits by reversed-phase high-performance liquid chromatography (RP-HPLC): comparison with pituitary hFSH reference preparation from National Hormone and Pituitary Program from USA

Loureiro, Renan Fernandes

06 November 2006

Um método de cromatografia líquida de alta eficiência por fase reversa (RP-HPLC) para análise qualitativa e quantitativa do hormônio folículo estimulante humano íntegro (hFSH), foi estabelecido e validado quanto à exatidão, precisão e sensibilidade. O FSH humano é um hormônio glicoprotéico dimérico largamente utilizado em medicina reprodutiva tanto para diagnóstico quanto para terapia. A metodologia desenvolvida preserva a integridade da proteína, permitindo a análise da forma heterodimérica intacta, e não somente de suas subunidades, como é normalmente obtida na maioria das condições geralmente empregadas. Esta técnica foi também utilizada para a comparação da hidrofobicidade relativa de preparações de hFSH hipofisária, urinária e derivadas de células de ovário de hamster chinês (CHO) bem como de outros dois hormônios glicoprotéicos, sintetizados na hipófise anterior: hormônio humano estimulante da tireóide (hTSH) e hormônio luteinizante humano (hLH). O menos hidrofóbico dos três hormônios analisados foi o hFSH, seguido do hTSH e do hLH. Uma diferença significativa (p<0,005) foi observada entre o tempo de retenção (tR) das preparações hipofisária e recombinante de hFSH, refletindo diferenças estruturais nas suas cadeias de carboidratos. Duas isoformas principais foram detectadas no hFSH urinário, incluindo uma forma que foi significativamente diferente (p<0,005) das preparações hipofisária e recombinante. Foram demonstradas linearidade da curva dose-resposta (r=0,9965, n=15) para esta metodologia de RP-HPLC, bem como uma precisão inter-ensaio, cujo coeficiente de variação é menor que 4%, para a quantificação de diferentes preparações de hFSH e uma sensibilidade da ordem de 40 ng. Foram também analisados o comportamento cromatográfico e a hidrofobicidade relativa das subunidades individuais das preparações recombinantes e hipofisária de hFSH. Além disso, a exata massa molecular das subunidades individuais de hFSH e do heterodímero foram simultaneamente determinadas por espectrometria de massa MALDI-TOF. A presente metodologia representa, em nossa opinião, uma ferramenta essencial para a caracterização e controle de qualidade deste hormônio, que ainda não consta das principais farmacopéias. / A reversed-phase high-performance liquid chromatography (RP-HPLC) method for the qualitative and quantitative analysis of intact human follicle-stimulating hormone (hFSH) was established and validated for accuracy, precision and sensitivity. Human FSH is a dimeric glycoprotein hormone widely used as a diagnostic analyte and as therapeutic product in reproductive medicine. The technique developed preserves the protein integrity, allowing the analysis of the intact heterodimeric form rather than just of its subunits, as it is the case for the majority of the conditions currently employed. This methodology has also been employed for comparing the relative hydrophobicity of pituitary, urinary and two Chinese hamster ovary (CHO)-derived hFSH preparations, as well as of two other related glycoprotein hormones of the anterior pituitary: human thyroid-stimulating hormone (hTSH) and human luteinizing hormone (hLH). The least hydrophobic of the three glycohormones analyzed was hFSH, followed by hTSH and hLH. A significant difference (p<0.005) was observed in tR between the pituitary and recombinant hFSH preparations, reflecting structural differences in their carbohydrate moieties. Two main isoforms were detected in urinary hFSH, including a form which was significantly different (p<0.005) for the pituitary and recombinant preparations. The linearity of the dose-response curve (r = 0.9965, n = 15) for this RP-HPLC methodology, as well as an inter-assay precision with relative standard deviation less than 4% for the quantification of different hFSH preparations and a sensitivity of the order of 40 ng, were demonstrated. The chromatographic behavior and relative hydrophobicity of the individual subunits of the pituitary and recombinant preparations were also analyzed. Furthermore, the accurate molecular mass of the individual hFSH subunits and of the heterodimer were simultaneously determined by matrix-assisted laser desorption ionization time-of-flight mass spectral analysis (MALDI-TOF-MS). The present methodology represents, in our opinion, an essential tool for characterization and quality control of this hormone that is not yet described in the main pharmacopoeias.

experimental data

follicle-stimulating hormone

FSH

glycohormone subunit

gonadotropins

liquid column chromatography

MALDI-TOF-MS

pituitary hormones

reversed-phase HPLC

TSH

PHOTOLYTIC LABELING TO PROBE PEPTIDE-MATRIX INTERACTIONS IN LYOPHILIZED SOLIDS

Yuan Chen (5929574)

25 June 2020

<p>Therapeutic proteins are often lyophilized with excipients such as sucrose or trehalose to protect them during manufacturing and achieve a longer shelf-life. Formulation design for therapeutic proteins has been a trial-and-error process, and the mechanisms responsible for the stabilizing effects of excipients are not fully understood. Two proposed theories have been widely accepted: the water replacement theory and the vitrification theory.^1,2The water replacement theory suggests that excipients stabilize protein molecules in the solid state by forming hydrogen bonds that “replace” the hydrogen bonds to water that stabilize the protein in solution, while the vitrification theory asserts that proteins are stabilized by a glassy solid matrix of low mobility and does not require direct interactions between excipient and protein. A better understanding of the interactions between proteins and other components of the lyophilized matrix can facilitate rational formulation design and shorten the time in development. However, most of the analytical methods available can only provide information on the bulk properties of the lyophilized matrix such as moisture content and glass transition temperature (<i>T</i>_g); it has been difficult to measure the interactions between protein and excipient directly, if they exist. In order to characterize the interactions between protein and excipients in a lyophilized matrix with high resolution, a photolytic labeling method was developed in this dissertation, building on previous work in our research group. Photolytic labeling has long been used to identify protein-protein interactions <i>in vivo</i>.^3,4Common types of photo-reaction reagents and their applications are summarized in Chapter 1. The research described in this dissertation utilizes the diazirine functional group, which is activated after UV exposure and undergoes a free radical reaction to form covalent bonds with nearby molecules. The reaction can be used to identify the interactions between excipients and protein or peptide in a solid formulation. Previous studies in our lab have shown that photo-reaction can be applied to lyophilized solids to study protein-matrix properties and interactions in the solid.^5,6This dissertation seeks to further identify photo-reaction products and analyze them in a more quantitative way. </p><p> </p><p>Chapter 2 describes a quantitative analysis of photo-reaction products in solution and lyophilized solids using a model peptide, KLQ (Ac-QELHKLQ-NHCH₃). The purpose of the work in this chapter is to establish a quantitative analytical method for photo-reaction products, enabling studies of peptide-excipient interactions in lyophilized solids. KLQ was derivatized with a bifunctional probe NHS-diazirine (succinimidyl 4,4’-azipentanoate; SDA) at Lys5 to be photo-reactive. The SDA derivatized KLQ (KLQ-SDA) was used to study the photo-reaction products and examine excipient interactions. Identification and quantitation of photo-reaction products of KLQ-SDA was achieved with liquid chromatography mass spectrometry (LC-MS) and reversed phase HPLC (rp-HPLC). Important reaction products such as peptide-excipient adducts and peptide water adducts varied in different formulations. Unexpected reaction products such as unproductive “dead-end” products and peptide-phosphate adducts from buffer salt were also detected and quantified. Together, the photo-reaction products reflected the local environment near Lys5 of the peptide in the solid state. This study has provided a better understanding of photo-reaction with diazirine in the lyophilized solids together with a quantitative description of the local environment near Lys5. </p><p> </p><p>In Chapter 3, the photo-reaction products in lyophilized solids exposed to increasing moisture were analyzed, and the effect of increasing moisture on the local environment near the peptide was examined. Using the analytical method developed in Chapter 2, these studies explored whether peptide-water interactions, as measured by the formation of water adducts formed by photolytic labeling, are linearly correlated with an increase in solid bulk moisture content. Formulations containing the KLQ-SDA peptide were exposed to various relative humidity conditions and photolytic labeling was induced. Solids containing disaccharide excipients behaved differently from those containing amino acids when exposed to the same relative humidity condition, showing different levels of peptide-excipient and peptide-water adducts. With increasing moisture content in the solids, the formation of photo-reaction products did not mimic the pattern of solutions with same composition, indicating differences in the local environment. </p><p> </p><p>An alternative approach to studying lyophilized formulations using photolytic labeling is to incorporate photo-reactive excipients into the solid matrix. In Chapter 4, a new diazirine-labeled photo-excipient, photo-glucosamine (pGlcN), was chemically synthesized and incorporated into formulations of the therapeutic peptide salmon calcitonin (sCT) and compared with the commercially available diazirine-labeled amino acid, photo-leucine (pLeu). The studies in Chapter 4 further compared peptide-excipient interactions at the molecular level with two different photo-excipients, ionizable pLeu and unionizable pGlcN. Changing solution pH prior to lyophilization was expected to change ionic interactions between sCT and pLeu in the solid samples, resulting in different distributions of photo-reactions products; pH-dependent differences were not expected for pGlcN. The results demonstrated that the distribution of photo-reaction products varied with the composition of the formulation and the pH of the solution prior to lyophilization. The photo-reaction products in the pGlcN-containing formulation differed from those pLeu, showing a difference in the interactions of unionizable (pGlcN) and ionizable (pLeu) excipients with sCT in solid samples. </p><p> </p><p>The work in this dissertation has developed photolytic labeling as a tool to study lyophilized peptide formulations, and has provided a more quantitative understanding of the photo-reaction products that are produced from diazirine-labeled peptides or excipients in the solid state. A new photo-reactive excipient has also been presented (pGlcN), which showed different photo-reaction products than a commercially available photo-excipient (pLeu) and is promising for future study. Photolytic labeling for formulation development is still in its early stages, and additional research regarding reaction mechanism and complementary stability studies is needed. Nevertheless, the results presented in this dissertation support continued development of photolytic labeling as a practical method for formulation design and development. </p><p> </p>

Pharmaceutical Sciences

lyophilization techniques

chemistry-related

Excipients

Pharmaceutics

formulations

photochemistry

Analytical Methods

LC/MS analysis

RP-HPLC: reversed-phase HPLC

characterizations

water replacement hypothesis