Some people suffering from diabetes or affected by poor growth most likely have problems with the so-called PICK1 protein,a protein that plays a decisive role in the formation of both growth hormone and insulin in the human body.
"We have studied the role played by PICK1 when growth hormone is released by the brain and insulin by the pancreas. Our experiments show that PICK1 deficiency leads to growth hormone and insulin deficiency in both fruit flies and mice. In mice, we can clearly see that the animals become small and fat and less tolerant to sugar when deficient in PICK1. We have reason to believe that the same is true for humans," says Professor Ulrik Gether from the Department of Neuroscience and Pharmacology, who has made the new discoveries together with his research colleagues Ole Kjærulff, Birgitte Holst and Kenneth Madsen.
Advanced transport system
Hormones are chemicals that regulate the body's functions via the blood in an ingenious transport system. In the so-called Golgi complex - an organelle made up of four to eight flat discs or cisternae arranged in a stack - traffic is bustling with proteins and hormones being modified, sorted and packaged so they can be sent out to destinations both within and outside the cells. These proteins and hormones include insulin and growth hormone. The proteins and hormones are packed into small transport particles called vesicles, and they remain there until the cells receive a signal to send the hormones off. The molecular dynamics that has been mapped through identifying PICK1 has shown itself to be a critical component in relation to diabetes and poor growth.
"The process is comparable to a factory where Lego bricks are packed. If the boxes are not packed properly and cannot be sent out at the right time to the right recipient, it causes problems. In this case with growth hormone and insulin," says Birgitte Holst.
From fruit flies to humans
Ole Kjærulff and his employees started by looking at PICK1 in fruit flies' brains, and then brought in Birgitte Holst, Ulrik Gether and Kenneth Madsen, who all possess expertise within this field of research. Birgitte Holst has looked at how PICK1 deficiency in mice affects their body weight and metabolism, while Ulrik Gether and Kenneth Madsen have been responsible for aspects to do with cell biology.
"PICK1 is part of the basic cellular process which is vital for fruit flies, mice and probably also humans being able to form and store important hormones such as insulin and growth hormone. We don't yet know exactly what our discoveries mean for the development of diabetes and poor growth in humans, but hopefully our new knowledge will lead to better prevention and treatment in the future," says Ulrik Gether.
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