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New stress response component identified in poultry brain

New stress response component identified in poultry brain
Author: Feedstuffs
Publish date: Thursday. November 15th, 2018

Finding builds base of knowledge upon new remedies to chronic stress responses may be developed, such as during transport.

Avian neuroscientists at the University of Arkansas System Division of Agriculture probing the neural pathways for stress response have identified a new structure of neurons in the brain of chickens.

Wayne Kuenzel, a Division of Agriculture poultry physiologist specializing in avian neuroendocrinology, said the newly discovered structure is a cluster of neurons that may be the starting point for some stress response signals. They are located in the hippocampal commissure, a structure located in the septum, which is a brain region directly above the hypothalamus.

Neuroendocrinology is the branch of biology that studies the interactions between the nervous system and the endocrine system, Kuenzel said. It is the system by which the brain regulates hormonal activity in the body, including the stress response.

Gurueswar Nagarajan, a former doctoral student in Kuenzel’s lab, led the investigation that demonstrated the new structure, called the nucleus of the hippocampal commissure (NHpC), was the first neuroendocrine nucleus involved in stress response.

Nagarajan is now a post-doctoral researcher for the National Institutes of Health in Bethesda, Md

Kuenzel is leading a research team in the University of Arkansas Center of Excellence for Poultry Science that is investigating the hypothalamo-pituitary-adrenal axis (HPA axis), one of at least four major neuroendocrine systems regulating vertebrate physiology and behavior.

The HPA axis, Kuenzel said, is a complex signaling pathway from the brain to the adrenal glands that controls how animals — chickens, in this case — respond to stress. The communication flow goes both ways with both negative and positive feedbacks, Kuenzel said. Once the stres is removed, a signal is sent back to the hypothalamus to cease its response.

Poultry, like many food animals, can be subject to stress at different stages of agricultural production, Kuenzel said. One common example of poultry stress is transportation as chickens are moved from hatcheries to poultry production houses and then to food processing plants.

Stress causes physiological changes in the birds that can have negative effects on meat quality, Kuenzel noted.

A better understanding of stress response pathways could help discover ways to alleviate such physiological stressors, which would help improve poultry welfare, health and may lead to improved meat quality for the poultry industry, Kuenzel said.

The current understanding of stress response is that it begins in the hypothalamus, an area at the base of the brain, directly above the pituitary gland. The hypothalamus contains a number of small clusters of neurons called neural nuclei that have a variety of functions, Kuenzel said. One of its most important functions is to link the nervous system to the endocrine system via the pituitary gland. The system is designed to maintain homeostasis — a tendency toward equilibrium among a body’s systems — throughout the lifetime of animals, including humans.

In response to stress, the hypothalamus releases corticotropin-releasing hormone (CRH) that stimulates the anterior pituitary gland, located just beneath the brain, to secrete the adrenocorticotropic hormone. It travels via the bloodstream to the adrenal glands, located atop the kidneys, which are then stimulated to secrete corticosterones. These are stress hormones in poultry and other birds that adjust metabolism in a manner that allows the birds to cope with stress.

Nagarajan showed that the NHpC became active and produced CRH in chickens that were stressed by short-term restriction of food

The NHpC neurons responded prior to the major group of CRH neurons in the HPA axis, and Nagarajan believes the newly discovered cluster of neurons may be part of the classical HPA chain of neuroendocrine activity that triggers the birds’ stress response.

Subsequent investigation by Nagarajan and Kuenzel’s current research team support that early hypothesis.

Where it all leads

Kuenzel’s team includes poultry scientist Seong W. Kang and graduate students Hakeem J. Kadhim and Michael T. Kidd Jr. They are using a variety of methods to identify the precise location of the NHpC in the brain, verify its role in stress response and try to understand how it works and what it contributes to the HPA axis.

Kuenzel believes their understanding of this neural cluster suggests a redesignation of the HPA axis. In at least some stress responses, the complex chain of interactions may be termed the septum-hypothalamic-pituitary-adrenal axis (SHPA axis) because the NHpC is located in the septum.

Research to understand the complexities of the neuroendocrine systems builds a base of knowledge upon which scientists later may be able to develop remedies to chronic stress responses, Kang said.

“Basic research like this is the foundation for applied research that leads to new technologies that can improve commercial poultry health and well-being,” Kang said.

Kuenzel added that, because avian neuroendocrine systems are analogous to human neuroendocrinology, medical researchers may be able to apply his team’s avian research to help guide them to a better understanding of human stress responses.


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