Rezeptoren mit „G“

10. Oktober 2012 von Laborjournal

Lefkowitz (l.), Kobilka

Auch der Chemie-Nobelpreis wird immer mehr zum verkappten Preis für Biowissenschaften. Gerade hat Stockholm bekannt gegeben, dass in diesem Jahr die beiden US-Amerikaner  Robert J. Lefkowitz (Duke University) und Brian K. Kobilka (Stanford University) die glücklichen gewinner sind. Beide arbeiten an medizinischen Forschungseinrichtungen — und haben mit ihren Arbeiten zusammen den Grundstein für das große Feld der zellulären Signalaufnahme durch G-Protein-gekoppelte Rezeptoren gelegt.

Die Jury erklärt und begründet ihre Entscheidung folgendermaßen: 

Your body is a fine-tuned system of interactions between billions of cells. Each cell has tiny receptors that enable it to sense its environment, so it can adapt to new situtations. Robert Lefkowitz and Brian Kobilka are awarded the 2012 Nobel Prize in Chemistry for groundbreaking discoveries that reveal the inner workings of an important family of such receptors: G-protein-coupled receptors.

For a long time, it remained a mystery how cells could sense their environment. Scientists knew that hormones such as adrenalin had powerful effects: increasing blood pressure and making the heart beat faster. They suspected that cell surfaces contained some kind of recipient for hormones. But what these receptors actually consisted of and how they worked remained obscured for most of the 20th Century.

Lefkowitz started to use radioactivity in 1968 in order to trace cells‘ receptors. He attached an iodine isotope to various hormones, and thanks to the radiation, he managed to unveil several receptors, among those a receptor for adrenalin: β-adrenergic receptor. His team of researchers extracted the receptor from its hiding place in the cell wall and gained an initial understanding of how it works.

The team achieved its next big step during the 1980s. The newly recruited Kobilka accepted the challenge to isolate the gene that codes for the β-adrenergic receptor from the gigantic human genome. His creative approach allowed him to attain his goal. When the researchers analyzed the gene, they discovered that the receptor was similar to one in the eye that captures light. They realized that there is a whole family of receptors that look alike and function in the same manner.

Today this family is referred to as G-protein-coupled receptors. About a thousand genes code for such receptors, for example, for light, flavour, odour, adrenalin, histamine, dopamine and serotonin. About half of all medications achieve their effect through G-protein–coupled receptors.

The studies by Lefkowitz and Kobilka are crucial for understanding how G-protein-coupled receptors function. Furthermore, in 2011, Kobilka achieved another break-through; he and his research team captured an image of the β-adrenergic receptor at the exact moment that it is activated by a hormone and sends a signal into the cell. This image is a molecular masterpiece — the result of decades of research.

Natürlich gratulieren auch wir den Beiden zum Bio-… äh, Chemie-Nobelpreis.


(Update vom 11.10.2012:)

Bassam Shakhashiri, Präsident der American Chemical Society, meint dazu gegenüber The Scientist:

Chemistry permeates all the sciences. It is so successful that it has broken down traditional barriers in science; so successful, even, that it is at some risk of losing its own identity. That is a tribute to how we have developed insights into the role of chemicals at the molecular level in the body.

So kann man’s natürlich auch sehen. Nur dass Lefkowitz und Kobilka keine ausgebildeten Chemiker sind — sondern Mediziner.

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