Autism Linked to Zinc Deficiency in Childhood
While the exact cause of autism is unknown, its development in children has been linked to various genetic and environmental factors—including zinc deficiency.
It is still not clear whether this deficiency contributes to autism, but scientists have now defined a possible mechanism for how this could work, according to a paper published in the journal Frontiers in Molecular Neuroscience.
For their study, the researchers demonstrated how zinc shapes the connections, or “synapses.” between brain cells (neurons) that form during early development via a complex molecular machinery controlled by autism-linked genes.
"Autism is associated with specific variants of genes involved in the formation, maturation and stabilization of synapses during early development," Sally Kim, lead author of the study from Stanford University School of Medicine, said in a statement.
"Our findings link zinc levels in neurons—via interactions with the proteins encoded by these genes—to the development of autism,” Kim said.
The team found that when a brain signal is transferred via a synapse, zinc enters the target neuron where it can bind two of these proteins, known as "Shank2" and "Shank3." These proteins then cause changes in the composition and function of adjacent signal receptors, called “AMPARs,” on the neuron’s surface at the synapse.
The finding that zinc shapes the properties of developing synapses via Shank proteins suggests that a lack of the mineral during early development could potentially contribute to autism by impairing the function of synapses—which enable brain cells to communicate with each other.
"Understanding the interaction between zinc and Shank proteins could therefore lead to diagnostic, treatment and prevention strategies for autism,” suggests John Huguenard, co-senior author, also of Stanford University School of Medicine.
It’s important to note, however, that, at present, it's not possible to make any concrete conclusions or begin recommending children take zinc supplements.
Taking too much zinc can reduce the amount of copper the body absorbs, which can result in anemia and weakening of the bones. Furthermore, zinc deficiency does not necessarily imply a dietary deficiency and could be caused by problems with absorption in the gut, for example.
"Nevertheless, our findings offer a novel mechanism for understanding how zinc deficiency—or disrupted handling of zinc in neurons—might contribute to autism," Garner said.
Autism is a lifelong developmental disability that affects how people perceive the world and interact with others. The autism spectrum contains a range of similar disorders, such as Asperger’s syndrome.