Neuroendocrinology

Mission: The goal of researchers in the Neuroendocrinology Research Focus Group is to further the understanding of the basic mechanisms controlling reproduction, the development and maintenance of sex differences in the brain, and an individuals response to stress.

Understanding these basic processes is central to the development of treatments for infertility and contraception. Findings in this area are also important to refining the diagnosis and treatment of neurological disorders that are gender biased such as major depression, anxiety disorders, attention deficit / hyperactivity disorder, obsessive compulsive disorder and autism. The potential contribution to all of these processes by chemicals in the environment that act as endocrine disrupters is an additional focus.

Research

Neuroendocrinology is the study of how the endocrine system impacts the nervous system and conversely how the nervous system regulates the endocrine system. Hormones are blood-borne molecules released from the endocrine glands, the ovaries and testes, as well as the adrenal glands, thyroid gland, pancreas and placenta. All of these secrete substances that alter how the brain functions and can influence a broad range of activities. These include:

Reproduction A class of hormones that are of particular interest are the so-called sex steroids, estradiol, progesterone and testosterone, which are synthesized by and secreted from principally the gonads. These powerful chemicals influence the brain throughout life. Beginning in utero and extending into early life, estradiol and testosterone determine whether the developing brain will be masculinized or feminized. At puberty, these steroid hormones again become important in regulating the reproductive cycles of females and reproductive function in males. The activity of a particular group of neurons in the brain, the GnRH (gonadotropin releasing hormone) neurons, is fundamental to the control of both male and female reproduction. Despite recent technological advances in cloning and artificial insemination, most reproduction still involves the mating of a male and female. Steroid hormones act in the brain to motivate animals (and humans) to copulate. Successful mating is followed by pregnancy, which results in a unique hormonal environment. Prolactin is a hormone released from the pituitary that is at particularly high levels during pregnancy and acts as a natural contraceptive. Progesterone is also at very high levels during pregnancy and this steroid might protect the brain from damage. The control of reproductive behavior and the consequences of pregnancy on neuronal functioning are also active areas of research by the program.

Challenges for the Future

The post-genome era is an exciting one for the field of neuroendocrinology. Understanding the genetic basis of variability in physiology and behavior is an important stepping stone in establishing both the normal and abnormal responses of cells. Hormones are often the means by which signals from the environment are relayed to the organism, as they will vary in response to light, food, temperature, stress and population crowding, allowing the animal to adapt to challenges. It has recently been found that some pesticides and agents used in the generation of plastics can act as hormone mimetics, so-called endocrine disrupters, and can alter the normal functioning of the endocrine system and disrupt the delicate balance between the brain and body. The greater our understanding of the basic cellular processes regulated by hormones, the better our ability to detect subtle but detrimental effects of environmental contaminants.

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