Our Features present up-to-date background information about selected topics from infection research. We introduce several pathogens, infectious diseases and specific research fields - supplemented with scientific pictures, audio podcasts and videos. Additionally, the features directly lead you to the involved research groups and topic-related news of the Helmholtz Centre for Infection Research (HZI).
Innate Immunity - Acquired Immunity
The human immune system consists of a large number of different cell types, each of which performs a unique job. In the bloodstream, these cells exist as our "white blood cells." One group of them recognises germs and pathogens as foreign and becomes activated early on during the course of an infection. These cells, which are part of our innate immunity, are constantly active. Their job is to make sure that only rarely will a virus or bacterium we encounter in our daily lives actually make us sick. This branch of the immune system is called innate because the cells it is made up of are present in the body and ready for action by the time we are born.
Two cell types in particular play a key role in innate immunity: Natural killer (NK) cells and dendritic cells. The job of NK cells is to recognise and kill off virally infected cells or tumor cells early on. NK cells constitute the immune system's first line of defence against an infection. The star-shaped, highly branched dendritic cells' job is to be on the lookout for intruders in the skin and in mucous membranes, and, upon encounter, to engulf and digest them. Dendritic cells travel to the nearest lymph node by way of lymphatic vessels. The lymph nodes represent an important interface between innate immunity and its counterpart, acquired immunity. Contact with dendritic cells and the load they carry, which is made up of chopped up bits of pathogens called antigens, activates a type of white blood cell called a T cell.
T cells are by far the most abundant cell type in what is known as our acquired immunity. Every single one of these cells is capable of recognizing highly specific protein molecules, which activate them, triggering their division. The genetically identical progeny then spread via the bloodstream in search of infected cells that present recognition proteins on their surfaces. Some of the T cells eliminate infected cells while others help the rest of the immune cells perform their jobs. B cells are rather similar in their specificity. They too recognise bits of pathogens, which prompts them to make antibodies that are central in the fight against germs and which can help protect us from subsequent re-infection. This particular property of B cells is exploited in vaccines.
- Live aus dem Lymphknoten
Die Reaktion des Immunsystems auf eine Infektion birgt noch immer viele Rätsel. Bei der Immunantwort des Körpers auf die eingedrungenen Bakterien spielen die weißen Blutkörperchen eine entscheidende Rolle. In den Lymphknoten informieren sie sich über die Krankheitserreger. Dem Nachwuchswissenschaftler Matthias Gunzer ist es gelungen, diese Kommunikation live zu beobachten. Länge: 6:12