Slovak
Albanian
Arabic
Armenian
Azerbaijani
Belarusian
Bengali
Bosnian
Catalan
Czech
Danish
Deutsch
Dutch
English
Estonian
Finnish
Français
Greek
Haitian Creole
Hebrew
Hindi
Hungarian
Icelandic
Indonesian
Irish
Italian
Japanese
Korean
Latvian
Lithuanian
Macedonian
Mongolian
Norwegian
Persian
Polish
Portuguese
Romanian
Russian
Serbian
Slovak
Slovenian
Spanish
Swahili
Swedish
Turkish
Ukrainian
Vietnamese
Български
中文(简体)
中文(繁體)
National Institute of Diabetes and Digestive and Kidney Diseases 2012

LiverTox: Clinical and Research Information on Drug-Induced Liver Injury

Články môžu prekladať iba registrovaní používatelia
Prihlásiť Registrácia
Odkaz sa uloží do schránky

Kľúčové slová

Abstrakt

Monoclonal antibodies are antibodies that have a high degree of specificity (mono-specificity) for an antigen or epitope. Monoclonal antibodies are typically derived from a clonal expansion of antibody producing malignant human plasma cells. The initial monoclonal antibodies were created by fusing spleen cells from an immunized mouse with human or mouse myeloma cells (malignant self-perpetuating antibody producing cells), and selecting out and cloning the hybrid cells (hybridomas) that produced the desired antibody reactivity. These initial monoclonal products were mouse antibodies and were very valuable in laboratory and animal research and diagnostic assays, but were problematic as therapeutic agents because of immune reactions to the foreign mouse protein. Subsequently, production of chimeric mouse-human monoclonal antibodies and means of further “humanizing” them and producing fully human recombinant monoclonal antibodies were developed. The conventions used in nomenclature of monoclonal antibodies indicate whether they are mouse (-omab), chimeric (-ximab), humanized (-zumab) or fully human (-umab). Monoclonal antibodies have broad clinical and experimental medical uses. Many of the initial monoclonal antibodies used in clinical medicine were immunomodulatory agents with activity against specific immune cells, such as CD4 or CD3 lymphocytes, which are important in the pathogenesis of rejection after solid organ transplantation. Subsequently, monoclonal antibodies were prepared against specific cytokines (anti-cytokines), which were believed to play a role in cell and tissue damage in immunologically mediated diseases such as rheumatoid arthritis, alkylosing spondylitis, inflammatory bowel disease, multiple sclerosis and psoriasis, among others. In addition, therapeutic monoclonal antibodies were developed, aimed at blocking or inhibiting the activity of specific enzymes, cell surface transporters or signaling molecules and have been used in cancer chemotherapy and to treat severe viral infections. Use of monoclonal antibodies is currently broadening to therapy of other severe, nonmalignant conditions including asthma, atopic dermatitis, migraine headaches, hypercholesterolemia, osteoporosis and viral or bacterial infections. Thus, the therapeutic monoclonal antibodies do not fall into a single class and have broad therapeutic uses. As of 2018, more than 60 therapeutic monoclonal antibodies are approved and in use in the United States. Monoclonal antibodies are generally well tolerated. Because they are large proteins (typically 150-200,000 daltons in size) they require parenteral, often intravenous, administration. Circulating proteins are metabolized by many cells, but particularly by hepatocytes. Proteins undergo hepatic uptake by endocytosis and are either degraded or recycled to the cell surface for secretion. The hepatic metabolism of antibodies often determines their half-life. Proteins are broken down by cellular proteases into small peptides and amino acids that can used to synthesize other proteins. Metabolism of proteins does not generate toxic intermediates and, therefore, monoclonal antibodies are unlikely to induce drug induced liver injury via production of toxic metabolites. On the other hand, the peptides that are generated by the metabolism of the exogenously administered protein may ultimately be presented as foreign epitopes and generate an immune response. In addition, the primary effect of the monoclonal antibody may generate a response, either immune or otherwise, that leads to an immune mediate hepatic injury. Finally, monoclonal antibodies that suppress the immune system may cause reactivation of latent infections, including tuberculosis and hepatitis B.

Pripojte sa k našej
facebookovej stránke

Najkompletnejšia databáza liečivých bylín podporovaná vedou

  • Pracuje v 55 jazykoch
  • Bylinné lieky podporené vedou
  • Rozpoznávanie bylín podľa obrázka
  • Interaktívna GPS mapa - označte byliny na mieste (už čoskoro)
  • Prečítajte si vedecké publikácie týkajúce sa vášho hľadania
  • Vyhľadajte liečivé byliny podľa ich účinkov
  • Usporiadajte svoje záujmy a držte krok s novinkami, klinickými skúškami a patentmi

Zadajte príznak alebo chorobu a prečítajte si o bylinách, ktoré by vám mohli pomôcť, napíšte bylinu a pozrite sa na choroby a príznaky, proti ktorým sa používa.
* Všetky informácie sú založené na publikovanom vedeckom výskume

Google Play badgeApp Store badge