In 2004 some ground-breaking work by scientists in New York* showed that if animals were treated with the beta-blocker propranolol, this allowed them to forget a learned trauma. However, the results have sometimes been difficult to reproduce, leading to doubts about whether the memories were modifiable at all.
Now scientists at Cambridge University have shown that the presence of a particular protein – the “shank” protein, which acts as a scaffold for the receptors that determine the strength of connections between neurons – determines whether the memories can be modified in animals treated with propranolol. If this protein is degraded, then memories become modifiable**. However, if this protein is found to be present, then this shows that the memories were not degradable, so explaining why propranolol does not always produce amnesia.
Lead researcher, Dr Amy Milton said:
“We trained rats to associate a clicker with a mild electric footshock, to create a fear memory, similar to the way Pavlov conditioned dogs more than a hundred years ago. We then reminded the rats of this memory (‘reactivated the memory’) by introducing the clicker on its own, and immediately after this reminder we gave an injection of the beta-blocker propranolol. However, we did not see the amnesia that had been previously reported in the literature following this intervention. We then used the presence of the shank protein to determine whether the memories had become unstable in the first place, and found that they had not.
This means that the shank protein can be used a biomarker for a malleable memory. We don’t yet know if it’s directly involved in the memory degradation, or if it’s a by-product of a deeper reaction. What it does do is give us a way in, a key to one of the first doors in understanding the biochemistry of memory.
These are really complex mechanisms, and we need to bear in mind that this is animal work; the brains of humans are similar, but much more complex. We don’t see this leading to the sort of situation shown in the movies, like for example “Eternal Sunshine of the Spotless Mind”, where the protagonists can choose which memories to erase. But we hope that over time we will be able to identify the factors that make memories modifiable in animals and translate these to human patients. Ultimately, we hope to lessen the unconscious impact of traumatic emotional memories, the sort of trauma which can ruin the lives of people with PTSD. In ancient Greek legend they spoke of a drug, Nepenthe, which made them forget painful memories. We hope that this is a step on the path to treatment”.
Commenting, Dr Livia de Picker, University of Antwerp, said:
“This is interesting work. Unpicking what makes a memory is extremely difficult, and this work takes us a step nearer to understanding how memories are retained and changed. There is a long way to go in this process, and of course transferring these steps to humans will be difficult. But this does give us some hope that eventually we may be able to help people who suffer from memories of traumatic stress”.
Dr De Picker was not involved in this work; this is an independent comment,
*Debiec & LeDoux, 2004
Source: Eurekalert
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