GET THE APP

A Versatile Protein Scaffold for Biotherapeutics is Ferritin | 94641

Международный журнал совместных исследований внутренней медицины и общественного здравоохранения

ISSN - 1840-4529

Абстрактный

A Versatile Protein Scaffold for Biotherapeutics is Ferritin

Lisa Edward

In almost all animals, there is an endogenous protein called the ferritin nanocage. The hollow spherical structure's capacity to naturally store iron ions has been used in a variety of bio-therapeutic research projects. The nanosized ferritin particles show controlled/sustained release pharmacokinetics and have outstanding biosafety characteristics. Additionally, the huge surface-to-volume ratio and the behaviour of the 24 monomer subunits breaking down and reassembling into a sphere allow for a variety of chemical and genetic alterations on the ferritin surface and inner cage. Here, we offer a critical analysis of ferritin and its uses. We offer an (i) overview of the use of ferritin in imaging and diagnosis for biomedical reasons, (ii) explore ferritin-based vaccinations, and (iii) examine ferritin-based agents now in clinical trials. We also introduce the application of ferritin in drug delivery. Ferritin is a versatile protein scaffold that exhibits enormous potential for drug development across a variety of categories, despite the fact that no pharmaceuticals based on it are currently approved, and ferritin-based medications have just recently begun phase I clinical trials. Researchers looking into ferritin and other protein-based biotherapeutics can profit and be interested right away from this rich shortlist of recent advancements.

Отказ от ответственности: Этот тезис был переведен с использованием инструментов искусственного интеллекта и еще не прошел рецензирование или проверку.