Prof. Rony Paz of the Weizmann Institute of Science suggests that our brains are like modern washing machines – evolved to have the latest sophisticated programming, but more vulnerable to breakdown and prone to develop costly disorders. He and a group of researchers recently conducted experiments comparing the efficiency of the neural code in non-human and human primates and found that, as the neural code gets more efficient, the robustness that prevents errors is reduced. Their findings, which appeared in Cell, may help to explain why disorders as ADHD, anxiety, depression, PTSD, and even autism are common in humans.

Prof. Paz, who is in the Institute’s Department of Neurobiology, says that anatomical differences between humans and other primates have been described by researchers – particularly our large prefrontal cortex and its extended number of neurons. But differences in the neural code – the “software,” in contrast with the “hardware” (the physical structure) – have not been explored.

Raviv Pryluk, a research student in Prof. Paz’s group, devised a way to test and compare the efficiency of the neural code in several regions of the brain. “We defined efficient communication as that which uses the least amount of energy to transmit the maximal information – to pass on as complicated message as possible with the fewest ‘words’,” says Pryluk.

The researchers recorded the electric activity of single neurons in both humans and macaque monkeys in two regions: the prefrontal cortex, where higher functions like decision making and rational thinking occur, and the amygdala, a more evolutionarily ancient region that is responsible for the “fight or flight” basic survival functions, as well as emotions. Prof. Paz and his group worked in collaboration with Prof. Itzhak Fried of Sourasky Medical Center in Tel Aviv and UCLA Medical School in Los Angeles. Patients with pharmacologically intractable epilepsy come to Prof. Fried to have electrodes implanted for diagnostic purposes, providing a rare opportunity to record the electrical activity of single neurons in the human brain. Also participating in this research were Dr. Hagar Gelbard-Sagiv of Tel Aviv University and Dr. Yoav Kfir, at the time a research student in Prof. Paz’s group.

The findings of the research provided support for the “washing machine” theory of brain evolution: the neural code in the “more evolved” prefrontal cortex is more efficient than in the amygdala, both in humans and monkeys. And the neural code of both areas in the human brain was more efficient than its monkey counterpart. But the higher the efficiency of a particular neural code, the less robust it was in resisting errors. Prof. Paz likens the amygdala to the washing-machine drum: “It’s not highly sophisticated, but it is less likely to fail – which is important to animals’ survival,” he says, adding: “The lower resistance of the human amygdala to errors may play a role in exaggerated survival-like responses in inappropriate contexts, such as those we see in PTSD and other anxiety disorders.”

Pryluk says, “Evolution works with tradeoffs. There may be a zero-sum game between efficiency and robustness; and our complex, multidimensional brains have gained one at the price of the other.” Prof. Fried states that “Comparing single-cell recordings from human and monkey brains is a large step forward toward answering the question of what makes the human brain unique.” Prof. Paz adds: “Why, on the one hand, do humans have such superior learning, cognitive and adaptive abilities and, on the other, this tendency to anxiety, depression, and other mental diseases? We have shown that these may be two sides of the same coin.”

Prof. Rony Paz’s research is supported by the Adelis Foundation; the Irving and Dorothy Rom Family Discovery Endowment Fund; the Irving B. Harris Fund for New Directions in Brain Research; the Bernard and Norton Wolf Family Foundation; the Leff Family; the Oster Family Foundation; Mr. and Mrs. Gary Clayman; Rosanne Cohen; the estate of Toby Bieber; and the European Research Council.

The Weizmann Institute of Science in Rehovot, Israel, is one of the world’s top-ranking multidisciplinary research institutions. The Institute’s 3,800-strong scientific community engages in research addressing crucial problems in medicine and health, energy, technology, agriculture, and the environment. Outstanding young scientists from around the world pursue advanced degrees at the Weizmann Institute’s Feinberg Graduate School. The discoveries and theories of Weizmann Institute scientists have had a major impact on the wider scientific community, as well as on the quality of life of millions of people worldwide.

Journal Link: Cell, Jan-2019