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Biotherapeutics hold great promise for the treatment of several diseases and offer innovative possibilities for new treatments that target previously unaddressed medical needs. Despite successful transitions from preclinical to clinical stages and regulatory approval, there are instances where adverse reactions arise, resulting in product withdrawals. As a result, it is essential to conduct thorough evaluations of safety and effectiveness on an individual basis. This article explores current practices, challenges, and future approaches in conducting comprehensive preclinical assessments to ensure the safety and efficacy of biotherapeutics including monoclonal antibodies, toxin-conjugates, bispecific antibodies, single-chain antibodies, Fc-engineered antibodies, antibody mimetics, and siRNA-antibody/peptide conjugates.
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Anticorpos Monoclonais , Avaliação Pré-Clínica de Medicamentos , Humanos , Anticorpos Monoclonais/química , Anticorpos Monoclonais/imunologia , Anticorpos Monoclonais/uso terapêutico , Animais , Avaliação Pré-Clínica de Medicamentos/métodos , Anticorpos Biespecíficos/química , Anticorpos Biespecíficos/imunologia , Imunoconjugados/químicaRESUMO
Glycerol kinase (GK) and glycerol 3-phosphate dehydrogenase (GPDH) are critical in glucose homeostasis. The role of genistein and metformin on these enzymes and glucose production was investigated in C2C12, HepG2, and 3T3-L1 cells. Enzyme kinetics, Real-Time PCR and western blots were performed to determine enzyme activities and expressions of mRNAs and proteins. Glucose production and uptake were also measured in these cells. siRNAs were used to assess their impact on the enzymes and glucose production. Ki values for the compounds were determined using purified GK and GPDH. Genistein decreased GK activity by â¼45 %, while metformin reduced cGPDH and mGPDH activities by â¼32 % and â¼43 %, respectively. Insignificant changes in expressions (mRNAs and proteins) of the enzymes were observed. The compounds showed dose-dependent alterations in glucose production and uptake in these cells. Genistein non-competitively inhibited His-GK activity (Ki 19.12 µM), while metformin non-competitively inhibited His-cGPDH (Ki 75.52 µM) and mGPDH (Ki 54.70 µM) activities. siRNAs transfection showed â¼50 % and â¼35 % decrease in activities of GK and mGPDH and a decrease in glucose production (0.38-fold and 0.42-fold) in 3T3-L1 cells. Considering the differential effects of the compounds, this study may provide insights into the potential therapeutic strategies for type II diabetes mellitus.
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Adipócitos , Genisteína , Glucose , Glicerol Quinase , Glicerolfosfato Desidrogenase , Hepatócitos , Metformina , Genisteína/farmacologia , Metformina/farmacologia , Camundongos , Animais , Glicerol Quinase/metabolismo , Glicerol Quinase/genética , Hepatócitos/efeitos dos fármacos , Hepatócitos/metabolismo , Humanos , Adipócitos/efeitos dos fármacos , Adipócitos/metabolismo , Glicerolfosfato Desidrogenase/metabolismo , Glicerolfosfato Desidrogenase/genética , Glucose/metabolismo , Células 3T3-L1 , Células Hep G2 , Glicerofosfatos/metabolismo , Glicerofosfatos/farmacologia , CinéticaRESUMO
This report describes a convenient method for the Cu(I)-catalyzed Sonogashira cross-coupling reaction of aryl/heteroaryl halides and alkynyl sugars in the presence of a 1,2,3-triazole-appended glycohybrid as a biocompatible ligand. The Sonogashira cross-coupling products were exclusively formed without the Glaser-Hay homocoupling reaction in the presence of a glycosyl monotriazolyl ligand at 120 °C. However, the Glaser-Hay homocoupling products were obtained at 60-70 °C in the presence of bis-triazolyl-based macrocyclic glycohybrid ligand L8. The glycosyl triazole ligands were synthesized via the CuI/DIPEA-mediated regioselective CuAAC click reaction, and a series of glycohybrids of glucose, mannose, and galactose alkynes including glycosyl rods were developed in good yields. The developed glycohybrids have been well characterized by various spectroscopic techniques, such as nuclear magnetic resonance, high-resolution mass spectrometry, and single-crystal X-ray data of L3. The protocol works well with the heteroaryl and naphthyl halides, and the mechanistic approach leads to CuI/ligand-assisted oxidative coupling. The coupling protocol has notable features, including low catalytic loading, cost-effectiveness, biocompatible nature, and a wide substrate scope.
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BACKGROUND AND AIMS: Crohn's disease [CD] and intestinal tuberculosis [ITB] are often difficult to differentiate. Mesenteric fat hypertrophy is a feature of CD. We evaluated the utility of fat indices (visceral fat [VF] and subcutaneous fat [SF]) in differentiating CD and ITB in children. METHODS: Symptomatic children diagnosed to have CD or ITB based on recommended criteria were enrolled. Clinical, anthropometric, and laboratory details were noted. Abdominal fat was measured on computed tomography in supine position at the level of L4 vertebrae. VF and SF area was measured separately by a radiologist, blinded to the diagnosis. The sum of VF and SF was taken as total fat [TF]. VF/SF and VF/TF ratios were calculated. RESULTS: Thirty-four (age 14 years [10.8-17.0], 14 boys) children were recruited: 12 had CD [seven boys, age 13.0 years] and 22 had ITB [seven boys, age 14.5 years]. VF area was higher in CD compared to ITB (18.34 cm2 [15.62-40.01] vs 6.48 cm2 [2.65-21.96]; pâ =â 0.012). The SF and TF area was similar in ITB and CD. The ratios of VF/SF (0.82 [0.57-1.5] vs 0.33 [0.16-0.48]; pâ =â 0.004) and VF/TF (0.45 [0.36-0.60] vs 0.25 [0.13-0.32]; pâ =â 0.004) were significantly higher in CD. On comparing CD and ITB in boys and girls separately, the difference was significant for boys but not for girls. A VF/SF ratio of 0.609 predicted CD with a good sensitivity [75%] and specificity [86.4%] [area under the curve 0.795, 95% confidence interval 0.636-0.955; pâ =â 0.005]. CONCLUSION: The VF/SF ratio is a simple, non-invasive, objective parameter to differentiate CD and ITB in children, particularly boys. Larger studies are needed to validate this in girls.
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Doença de Crohn , Enterite , Tuberculose Gastrointestinal , Masculino , Feminino , Criança , Humanos , Adolescente , Doença de Crohn/diagnóstico , Gordura Intra-Abdominal/diagnóstico por imagem , Tuberculose Gastrointestinal/diagnóstico , Enterite/diagnóstico , Tomografia Computadorizada por Raios X , Diagnóstico DiferencialRESUMO
Celiac disease (CD) is a gluten related disorder which affects all age-groups and occurs in genetically susceptible population after introduction of gluten in diet. The worldwide prevalence of CD is ~1% and it is higher in certain "at-risk groups". The clinical features are variable, ranging from classical diarrhea to an asymptomatic state. Diagnosis requires serology and duodenal histology although a non-biopsy diagnosis is recommended by European Society of Pediatric Gastroenterology, Hepatology and Nutrition (ESPGHAN) for a select group of children. Treatment of CD is with a life-long strict gluten free diet (GFD) along with correction of nutritional deficiencies. Regular follow-up to assess compliance and efficacy of GFD is mandatory. Non-responsive CD needs evaluation by a specialist as it can be due to incorrect diagnosis, poor dietary compliance, coexisting conditions like small bowel bacterial overgrowth, pancreatic insufficiency etc. and lastly, refractory CD. Most patients diagnosed as CD in childhood receive no medical or dietary supervision after transition to adulthood and nearly a third are non-compliant to GFD. No requirement of medications, patient's perception of understanding GFD and absence of symptoms with intermittent non-compliance leads to neglect of care after transition. Poor dietary adherence leads to nutritional deficiencies, osteoporosis, fertility issues and risk of malignancy. It is mandatory that the patients know about CD, need of strict GFD, regular follow-up, disease complications, and are capable of communicating with the health-care personnel before transition. Formulating a phased transition care program with joint pediatric and adult clinics is required for a successful transition and improving the long-term outcome.
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Doença Celíaca , Desnutrição , Adulto , Humanos , Criança , Doença Celíaca/diagnóstico , Doença Celíaca/terapia , Transferência de Pacientes , Glutens/efeitos adversos , Dieta Livre de Glúten , Desnutrição/complicações , Cooperação do PacienteRESUMO
In nature, almost all cells are covered with a complex array of glycan chain namely sialic acids or nuraminic acids, a negatively charged nine carbon sugars which is considered for their great therapeutic importance since long back. Owing to its presence at the terminal end of lipid bilayer (commonly known as terminal sugars), the well-defined sialosides or sialoconjugates have served pivotal role on the cell surfaces and thus, the sialic acid-containing glycans can modulate and mediate a number of imperative cellular interactions. Understanding of the sialo-protein interaction and their roles in vertebrates in regard of normal physiology, pathological variance, and evolution has indeed a noteworthy journey in medicine. In this tutorial review, we present a concise overview about the structure, linkages in chemical diversity, biological significance followed by chemical and enzymatic modification/synthesis of sialic acid containing glycans. A more focus is attempted about the recent advances, opportunity, and more over growing impact of sialosides and sialoconjugates in future drug discovery and development.
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Ácido N-Acetilneuramínico , Ácidos Siálicos , Animais , Ácido N-Acetilneuramínico/química , Ácidos Siálicos/química , Polissacarídeos/química , Sialiltransferases/metabolismo , AçúcaresRESUMO
To curtail pathogens or tumors, antimicrobial or antineoplastic drugs have been developed. These drugs target microbial/cancer growth and survival, thereby improving the host's health. In attempts to evade the detrimental effects of such drugs, these cells have evolved several mechanisms over time. Some variants of the cells have developed resistances against multiple drugs or antimicrobial agents. Such microorganisms or cancer cells are said to exhibit multidrug resistance (MDR). The drug resistance status of a cell can be determined by analyzing several genotypic and phenotypic changes, which are brought about by significant physiological and biochemical alterations. Owing to their resilient nature, treatment and management of MDR cases in clinics is arduous and requires a meticulous approach. Currently, techniques such as plating and culturing, biopsy, gene sequencing, and magnetic resonance imaging are prevalent in clinical practices for determining drug resistance status. However, the major drawbacks of using these methods lie in their time-consuming nature and the problem of translating them into point-of-care or mass-detection tools. To overcome the shortcomings of conventional techniques, biosensors with a low detection limit have been engineered to provide quick and reliable results conveniently. These devices are highly versatile in terms of analyte range and quantities that can be detected to report drug resistance in a given sample. A brief introduction to MDR, along with a detailed insight into recent biosensor design trends and use for identifying multidrug-resistant microorganisms and tumors, is presented in this review.
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Anti-Infecciosos , Antineoplásicos , Neoplasias , Humanos , Resistência a Múltiplos Medicamentos , Antineoplásicos/uso terapêutico , Neoplasias/tratamento farmacológico , Anti-Infecciosos/farmacologia , Anti-Infecciosos/uso terapêuticoRESUMO
The formation of inclusion bodies (IBs) during expression of recombinant therapeutic proteins using E. coli is a significant hurdle in producing high-quality, safe, and efficacious medicines. The improved understanding of the structure-function relationship of the IBs has resulted in the development of novel biotechnologies that have streamlined the isolation, solubilization, refolding, and purification of the active functional proteins from the bacterial IBs. Together, this overall effort promises to radically improve the scope of experimental biology of therapeutic protein production and expand new prospects in IBs usage. Notably, the IBs are increasingly used for applications in more pristine areas such as drug delivery and material sciences. In this review, we intend to provide a comprehensive picture of the bio-processing of bacterial IBs, including assessing critical gaps that still need to be addressed and potential solutions to overcome them. We expect this review to be a useful resource for those working in the area of protein refolding and therapeutic protein production.
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Escherichia coli , Corpos de Inclusão , Proteínas Recombinantes , Escherichia coli/genética , Escherichia coli/metabolismo , Corpos de Inclusão/metabolismo , Proteínas Recombinantes/biossíntese , Relação Estrutura-AtividadeRESUMO
Over the last one-decade, endoscopic ultrasound (EUS)-guided drainage has evolved as a preferred modality for treating pseudocyst over conventional surgical or radiological procedures among adults using plastic stents or lumen opposing stents; however, studies on EUS-guided pancreatic of pseudocyst among children are mainly in the form of case reports or small case series. Therefore, we aimed to describe four pediatric cases of the pseudo-pancreatic cyst treated successfully with EUS-guided cysto-gastrostomy using plastic stents. In all four cases, EUS-guided drainage was successful using plastic stent with no major complications, and none of them required any follow-up endoscopic or surgical intervention. EUS-guided cysto-gastrostomy offers an excellent and safe alternative to surgery for treating pancreatic pseudocysts in children.
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The glycosyl 1,2,3-triazoles are expediently accessible from readily available sugar-derived glycosyl azide by utilizing modular CuAAC "Click Chemistry", and the resulting glycohybrid skeleton possesses efficient metal-coordinating centers that support a wide range of metal-mediated efficient catalysis in various imperative organic transformations. Here, we designed and developed pyridyl glycosyl triazoles by employing the CuAAC reaction of d-glucose-derived glycosyl azides and alkynyl pyridines. These pyridyl glycosyl triazoles with Cu(I) salt were explored as an efficient catalyst to successfully assemble 2-amino-3-substituted and 3-substituted quinazolinones by the domino/tandem cross-coupling reaction of various N-substituted o-halobenzamides with cyanamide and formamide, respectively. The devised protocol has some notable features, including biocompatibility, low cost, easily accessible starting materials for the glycosyl ligands, high yield, broad spectrum, low catalytic loading, and mild reaction conditions.
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Quinazolinonas , Triazóis , Química Click/métodos , Azidas , Catálise , Cobre , AlcinosRESUMO
Acetimidates, a valuable intermediate has been well explored as versatile synthon in a number of organic transformations particularly as suitable donors in glycosylation reactions. Herein, we explored acetimidates to furnish high-to-excellent yield of diverse glycosylated esters under one-pot mild reaction condition. The commercially available trichloroacetonitrile is implemented for the activation of carboxylic acid via in situ generation of trichloroacetimidate, which was subsequently attacked by sugar alcohols to deliver high-to-excellent yields of desired glycosylated esters. The devised method has some notable features such as metal-free condition, one-pot mild reaction condition, easy-handling, high-to-excellent yields, and broad substrate scope.
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Ácidos Carboxílicos , Ésteres , Acetonitrilas , Glicosilação , Álcoois AçúcaresRESUMO
BACKGROUND: Lysine variants of monoclonal antibodies (mAbs) result from incomplete clipping of the C-terminal lysine residues of the heavy chain. Although the structure of the lysine variants has been determined for several mAb products, a detailed study that investigates the impact of lysine charge variants on PK/PD and preclinical safety is yet to be published. OBJECTIVE: An in-depth investigation of the impact of C- terminal lysine clipping of mAbs on safety and efficacy for bevacizumab charge variants. METHOD: Charge variant isolation using semi-preparative chromatography is followed by a comparative analysis of FcRn binding, pharmacokinetics, and pharmacodynamics in relevant animal models. RESULTS: K1 variant exhibited improved FcRn binding affinity (4-fold), half-life (1.3-fold), and anti-tumor activity (1.3-fold) as compared to the K0 (main) product. However, the K2 variant, even though exhibited higher FcRn affinity (2-fold), displayed lower half-life (1.6-fold) and anti-tumor activity at medium and low doses. Differential proteomic analysis revealed that seven pathways (such as glycolysis, gluconeogenesis, carbon metabolism, synthesis of amino acids) were significantly enriched. Higher efficacy of the K1 variant is likely due to higher bioavailability of the drug, leading to complete downregulation of the pathways that facilitate catering of the energy requirements of the proliferating tumor cells. On the contrary, the K2 variant exhibits a shorter half-life, resulting only in partial reduction in the metabolic/energy requirements of the growing tumor cells. CONCLUSION: Overall, we conclude that the mAb half-life, dosage, and efficacy of a biotherapeutic product are significantly impacted by the charge variant profile of a biotherapeutic product.
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Antineoplásicos Imunológicos , Receptores Fc , Animais , Anticorpos Monoclonais/farmacocinética , Bevacizumab/química , Meia-Vida , Antígenos de Histocompatibilidade Classe I/genética , Antígenos de Histocompatibilidade Classe I/metabolismo , Lisina , Proteômica , Receptores Fc/genética , Receptores Fc/metabolismoRESUMO
Fructose consumption has been linked to manifestation of metabolic syndrome (MS); an emerging epidemic. The current study attempts to demonstrate fructose overconsumption-mediated cardiovascular disease (CVD) remodeling in Wistar rats. Rats were randomly segregated into control (CON) and high fructose diet (FFR) groups and received customized diets for 20 weeks. Levels of diabetic, lipid, antioxidant, markers, mRNA levels of inflammatory, apoptotic markers, and histopathological changes were assessed in excised hearts of both groups. Significant increase in uric acid, pro-oxidants diabetic, lipid, inflammatory markers, cytosolic cytochrome C, nuclear NF-кB-p65, and decrease in antioxidants was observed in FFR group. Abnormal myocardial architecture was observed in the FFR group along with elevated mRNA levels of inflammatory, apoptotic markers, and MMP-9, -2. The outcomes of the study are suggestive of role of aforementioned molecules in high fructose intake-mediated pathological deterioration of heart and development of MS-associated CVD progression. PRACTICAL APPLICATIONS: Excessive fructose consumption in the form of high fructose corn syrup, sugary drinks, and commonly available fast foods has been shown to be linked with many diseases such as liver malfunction, metabolic syndrome diabetes, and cardiovascular diseases. However, delineated pathways and clear mechanisms and their role in cardiovascular remodeling due to excessive fructose consumption are yet to be established. The present study establishes the deleterious effects of foods with high sugar content on progression toward metabolic syndrome and cardiovascular remodeling. It further investigates the role of different pathways involved in the development of high fructose-induced diet-induced metabolic syndrome, and thereby leading to harmful effects on the hearts of rats consuming high fructose diet leading to cardiovascular in Wistar rats. The study suggests the role of immunomodulation and oxidative stress in the remodeling of cardiac muscles and in turn progression toward metabolic syndrome and cardiovascular remodeling. The study, therefore, throws light on the deleterious effects of consumption of foods and easily available fast foods on progression toward numerous non-communicable diseases.
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Doenças Cardiovasculares , Síndrome Metabólica , Animais , Antioxidantes/farmacologia , Doenças Cardiovasculares/etiologia , Dieta/efeitos adversos , Frutose/efeitos adversos , Lipídeos , Síndrome Metabólica/etiologia , Síndrome Metabólica/metabolismo , RNA Mensageiro , Ratos , Ratos WistarRESUMO
In the last three decades, the use of herbal medications has been increasing for the treatment of various chronic disorders. Studies in the past have shown that many of these medicines could contain high levels of heavy metals, including lead. Therefore, we planned this study to evaluate the possibility of lead toxicity as the underlying cause in patients consuming these unnamed herbal medicines among patients presenting with significant abdominal pain. (Unexplained abdominal pain means pain in abdomen in which no etiology could be ascertained after all possible routine and specialized investigations including computerized axial tomography [CT] of the abdomen and upper gastrointestinal [UGI] endoscopy/colonoscopy). This is an observational case series of prospectively maintained data of all patients having unexplained abdominal pain and found to have an elevated blood lead level from 2011 to 2019. Lead toxicity was diagnosed when its blood lead level was >25 µg/dL. Total sixty-six patients with unexplained abdominal pain from 2011 to 2019 were recruited. Out of the sixty-six patients, seventeen had elevated blood lead levels. All seventeen patients had a history of ingestion of herbal medicines for more than 6 months. Among the seventeen patients, eight were taking it for infertility and sexual dysfunction, six for diabetes, two for arthritis and one for hypertension. Basophilic stippling was seen in one patient. Fourteen patients had low hemoglobin with a median value of 9.7 g/dL. Mean serum blood lead level was 87.1 µg/dL. None of them required anti-chelating agent. Lead toxicity owing to herbal medicine is not uncommon cause of unexplained abdominal pain. Most of these patients do not require a chelating agent for treatment. There is a need to bring these herbal medicines under strict regulations for displaying its constituents and their concentrations.
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Intoxicação por Chumbo , Chumbo , Dor Abdominal/induzido quimicamente , Quelantes , Humanos , Chumbo/uso terapêutico , Intoxicação por Chumbo/diagnóstico , Intoxicação por Chumbo/tratamento farmacológico , Intoxicação por Chumbo/etiologia , Fitoterapia/efeitos adversosRESUMO
Glycosyl triazoles have been introduced as efficient ligands for the Cu-catalyzed Sonogashira reaction to overcome the challenges of sideways homocoupling reactions in Cu catalysis in this reaction. The atmospheric oxygen in a sealed tube did not affect the coupling, and no need of complete exclusion of oxygen was experienced in the presence of glycohybrid triazole ligand L3. High product yields were obtained at 130 °C for a variety of substrates including aliphatic and aromatic terminal alkynes and differently substituted aromatic halides including 9-bromo noscapine. In contrast, at room temperature, a very low loading of the L3-Cu catalytic system could produce excellent yields in Glaser coupling including homocoupling and heterocoupling of a variety of aliphatic and aromatic alkynes.
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Alcinos , Triazóis , Catálise , Ligantes , TemperaturaRESUMO
Chinese hamster ovary (CHO) cells are the primary mammalian cell lines utilized to produce monoclonal antibodies (mAbs). The upsurge in biosimilar development and the proven health benefits of mAb treatments reinforces the need for innovative methods to generate robust CHO clones and enhance production, while maintaining desired product quality attributes. Among various product titer-enhancing approaches, the use of histone deacetylase inhibitors (HDACis) such as sodium butyrate (NaBu) has yielded promising results. The titer-enhancing effect of HDACi treatment has generally been observed in lower producer cell lines but those studies are typically done on individual clones. Here, we describe a cell line development (CLD) platform approach for creating clones with varying productivities. We then describe a method for selecting an optimal NaBu concentration to evaluate potential titer-enhancing capabilities in a fed-batch study. Finally, a method for purifying the mAb using protein A chromatography, followed by glycosylation analysis using mass spectrometry, is described. The proposed workflow can be applied for a robust CLD process optimization to generate robust clones, enhance product expression, and improve product quality attributes.
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Anticorpos Monoclonais , Animais , Anticorpos Monoclonais/metabolismo , Ácido Butírico/farmacologia , Células CHO , Cricetinae , Cricetulus , Glicosilação , Proteínas Recombinantes/genética , Proteínas Recombinantes/metabolismoRESUMO
Murraya koenigii (L.) Spreng (Curry leaf) is a commercially important medicinal plant in South Asia, containing therapeutically valuable carbazole alkaloids (CAs). Thus, the quantitative evaluation of these compounds from different climatic zones of India are an important aspect for quality assessment and economic isolation of targeted compounds from the plant. In this study, quantitative estimation of CAs among 34 Indian natural populations of M. koenigii was assessed using UPLC/MS/MS. The collected populations represent the humid subtropical, tropical wet & dry, tropical wet, semi-arid, arid, and montane climatic zones of India. A total of 11 CAs viz. koenine-I, murrayamine A, koenigine, koenimbidine, koenimbine, O-methylmurrayamine A, girinimbine, mahanine, 8,8''-biskoenigine, isomahanimbine, and mahanimbine were quantified using multiple reaction monitoring (MRM) experiments within 5.0â min. The respective range for natural abundance of CAs were observed as 0.097-1.222, 0.092-5.014, 0.034-0.661, 0.010-1.673, 0.013-7.336, 0.010-0.310, 0.010-0.114, 0.049-5.288, 0.031-1.731, 0.491-3.791, and 0.492-5.399â mg/g in leaves of M. koenigii. The developed method shown linearity regression coefficient (r2 >0.9995), LOD (0.003-0.248â ng/mL), LOQ (0.009-0.754â ng/mL), and the recovery was between 88.803-103.729 %. The bulk of these CAs were recorded in their highest concentrations in the humid subtropical zone, followed by the tropical wet & dry zones of India. Further, principal component analysis (PCA) was performed which differentiated the climatic zones according to the dominant and significant CAs contents within the populations. The study concludes that the method established is simple, rapid, with high sample throughput, and can be used as a tool for commercial purposes and quality control of M. koenigii.
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Alcaloides/análise , Carbazóis/análise , Murraya/química , Análise de Componente Principal , Cromatografia Líquida de Alta Pressão , Índia , Estrutura Molecular , Espectrometria de Massas em TandemRESUMO
d-Glucosamine, a natural, inexpensive, and conveniently accessible sugar, has been explored as an efficient ligand for the Cu(I)-catalyzed regio- and stereoselective synthesis of an array of (Z)-3-methyleneisoindoline-1-ones and (E)-N-aryl-4H-thiochromen-4-imines in good-to-excellent yield in a tandem fashion via the reaction of 2-halobenzamide and 2-halobenzothioamide with terminal alkynes, respectively. The water solubility and biocompatible nature of the ligand offer easy separation of the catalytic system toward the aqueous phase as well as change in the reaction path in terms of the product also demonstrated the variation of the reaction temperature. The domino reaction proceeds by the Sonogashira and Ullmann type cross-coupling reaction, followed by Cu(I)-promoted additive cyclization of heteroatom to the triple bond. In addition, d-glucosamine causes successful Glaser-Hay coupling of terminal alkynes under Cu catalysis to produce a high yield of respective 1,3-diynes.
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Glycosylation is a critical quality attribute of monoclonal antibody (mAb) therapeutics. Hydrophilic interaction liquid chromatography-mass spectrometry (HILIC-MS) is an invaluable technology for the characterization of protein glycosylation. HILIC/MS-based glycan analysis relies on the library search using Glucose Units (GU) and accurate mass (AM) as the primary search parameters for identification. However, GU-based identifications are gradient-dependent and are not suitable for applications where separation gradients need to be optimized to analyze complex samples or achieve higher throughput. Additionally, the workflow requires calibration curves (using dextran ladder) to be generated for each analysis campaign, which in turn, are used to derive the GU values of the separated glycan species. To overcome this limitation, we employed a two-step strategy for targeted glycan analysis of a mAb expressed in Chinese Hamster Ovary (CHO) cells. The first step is to create a custom library of the glycans of interest independent of GU values (thereby eliminating the need for a calibration curve) and instead uses AM and retention time (RT) as the primary search variables. The second step is to perform targeted glycan screening using the custom-built library. The developed workflow was applied for targeted glycan analysis of a mAb expressed in CHO for 1) cell line selection 2) characterizing the day-wise glycan evolution in a model mAb during a fed-batch culture, 3) assessing the impact of different media conditions on glycosylation, and 4) evaluating the impact of two different process conditions on glycosylation changes in a model mAb grown in a bioreactor. Taken together, the data presented in this study provides insights into the sources of glycan heterogeneity in a model mAb that are seen during its commercial manufacturing.