Introducing the brain: maintaining childhood memories (Introduction)

by David Turell , Thursday, June 27, 2024, 20:23 (3 days ago) @ David Turell

A special protein:

https://www.sciencedaily.com/releases/2024/06/240626152118.htm

"A new study in the journal Science Advances, conducted by a team of international researchers, has uncovered a biological explanation for long-term memories. It centers on the discovery of the role of a molecule, KIBRA, that serves as a "glue" to other molecules, thereby solidifying memory formation.

***

"In a study using laboratory mice, the scientists focused on the role of KIBRA, or kidney and brain expressed protein, the human genetic variants of which are associated with both good and poor memory. They focused on KIBRA's interactions with other molecules crucial to memory formation -- in this case, protein kinase Mzeta (PKMzeta). This enzyme is the most crucial molecule for strengthening normal mammalian synapses that is known, but it degrades after a few days.

"Their experiments reveal that KIBRA is the "missing link" in long-term memories, serving as a "persistent synaptic tag," or glue, that sticks to strong synapses and to PKMzeta while also avoiding weak synapses.

"'During memory formation the synapses involved in the formation are activated -- and KIBRA is selectively positioned in these synapses," explains Sacktor, a professor of physiology, pharmacology, anesthesiology, and neurology at SUNY Downstate. "PKMzeta then attaches to the KIBRA-synaptic-tag and keeps those synapses strong. This allows the synapses to stick to newly made KIBRA, attracting more newly made PKMzeta."

More specifically, their experiments in the Science Advances paper show that breaking the KIBRA-PKMzeta bond erases old memory. Previous work had shown that randomly increasing PKMzeta in the brain enhances weak or faded memories, which was mysterious because it should have done the opposite by acting at random locations, but the persistent synaptic tagging by KIBRA explains why the additional PKMzeta was memory enhancing, by only acting at the KIBRA tagged sites.

***

"The paper's authors note that the research affirms a concept introduced in 1984 by Francis Crick. Sacktor and Fenton point out that his proposed hypothesis to explain the brain's role in memory storage despite constant cellular and molecular changes is a Theseus's Ship mechanism -- borrowed from a philosophical argument stemming from Greek mythology in which new planks replace old ones to maintain Theseus's Ship for years.

"'The persistent synaptic tagging mechanism we found is analogous to how new planks replace old planks to maintain Theseus's Ship for generations, and allows memories to last for years even as the proteins maintaining the memory are replaced," says Sacktor. "FrancisCrick intuited this Theseus's Ship mechanism, even predicting the role for a protein kinase. But it took 40 years to discover that the components are KIBRA and PKMzeta and to work out the mechanism of their interaction.""

Comment: the fact that our cells are constantly producing new sister cells does not make any change in me except an aged 95 years.