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Identifikacija in ločba nezaželenih izooblik pri proizvodnji monoklonskih protiteles
ID Petrič, Arne (Author), ID Podgornik, Aleš (Mentor) More about this mentor... This link opens in a new window

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Abstract
Biološka zdravila, kot so monoklonska protitelesa (mAb), so postala zelo pomembna zaradi svoje zmožnosti naslavljanja kompleksnih bolezni, vključno z različnimi oblikami raka in avtoimunskimi motnjami. Po translaciji so podvržena mnogim post translacijskim modifikacijam (PTM), ki lahko vplivajo na varnost in učinkovitost zdravila vključno s hitrostjo izločanja, efektorskimi funkcijami, zvijanjem, imunogenostjo, topnostjo in biološko aktivnostjo. Analitične metode za PTM so ključne za razvoj zdravil, zagotavljanje doslednosti proizvodnje ter primerjavo z biološko podobnimi in izboljšanimi zdravili. Glikozilacija, najpogostejša PTM, vključuje zaporedno dodajanje monosaharidnih ostankov, kar vodi v izjemno heterogenost in pojava izooblik mAb. Za analizo glikozilacij se uporabljajo različne analitične tehnike. Najbolj pogoste so hidrofilna tekočinska interakcijska kromatografija (HILIC), visoko zmogljiva anionska-izmenjevalna kromatografija s pulzno amperometrično detekcijo (HPAEC-PAD), kapilarna elektroforeza (CE) in masna spektrometrija (MS). Te omogočajo določitev strukture, sestave in lokacije glikanov na proteinih ter vsebnosti sialične kisline. Za pripravo vzorca za analizo obstaja veliko možnosti, vsaka s svojimi prednostmi in slabostmi. Kompleksnost glikozilacije povzroča izzive pri ločbi in karakterizaciji, zato je pogosto potrebna kombinacija več tehnik za celovito profiliranje glikanov. Poleg tega so analize drage in kompleksne, kar povečuje stroške pri proizvodnji mAb. Pričakuje se, da bosta prihodnji razvoj analitičnih metod in povečanje avtomatizacije v biofarmacevtski industriji izboljšala doslednost, zanesljivost in stroškovno učinkovitost proizvodnje mAb.

Language:Slovenian
Keywords:monoklonska protitelesa, glikozilacija, visoko zmogljiva tekočinska kromatografija, masna spektrometrija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:BF - Biotechnical Faculty
Year:2024
PID:20.500.12556/RUL-160298 This link opens in a new window
COBISS.SI-ID:205363971 This link opens in a new window
Publication date in RUL:25.08.2024
Views:194
Downloads:16
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Secondary language

Language:English
Title:Production of monoclonal antibody isoforms
Abstract:
Biological drugs, such as monoclonal antibodies (mAbs), have become very important due to their ability to address complex diseases, including various forms of cancer and autoimmune disorders. After translation, they undergo many post-translational modifications (PTMs) that can affect the safety and efficacy of the drug, including secretion rate, effector functions, folding, immunogenicity, solubility, and biological activity. Analytical methods for PTMs are crucial for drug development, for ensuring production consistency and for proving of biosimilarity. Glycosylation, the most common PTM, involves the sequential addition of monosaccharide residues, leading to extreme heterogeneity and the occurrence of mAb isoforms. Various analytical techniques are used for glycosylation analysis, with the most common being hydrophilic interaction liquid chromatography (HILIC), high-performance anion-exchange chromatography with pulsed amperometric detection (HPAEC-PAD), capillary electrophoresis (CE), and mass spectrometry (MS). These techniques allow the determination of the structure, composition, and location of glycans on proteins, as well as the sialic acid content. There are many options for sample preparation for analysis, each with its advantages and disadvantages. The complexity of glycosylation presents challenges in separation and characterization, often requiring a combination of several techniques for comprehensive glycan profiling. Additionally, the analyses are expensive and complex, increasing the costs of mAb production. It is expected that future developments in analytical methods and increased automation in the biopharmaceutical industry will improve the consistency, reliability, and cost-efficiency of mAb production.

Keywords:monoclonal antibodies, glycosilation, high performance liquid cromatography, mass spectrometry

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