Term
What functions are overseen by the hormones released in the pituitary gland? |
|
Definition
1. Somatic growth 2. Lactation 3. Thyroid function 4. Gonadal function 5. Adrenal function 6. Body fluid homeostasis |
|
|
Term
What two major functions do pituitary hormones normally have at their target organs? |
|
Definition
1. Growth of target tissues
2. Secretion of more hormones |
|
|
Term
What does growth hormone releasing hormone do? |
|
Definition
Activates release of growth hormone by the somatotroph |
|
|
Term
What does somatostatin do? |
|
Definition
Inhibits the release of growth hormone by the somatostatin |
|
|
Term
What does prolactin releasing hormone do? |
|
Definition
Activates the release of prolactin by the lactotroph |
|
|
Term
what does prolactin inhibiting hormone (dopamine) do? |
|
Definition
Inhibits the release of prolactin by the lactotroph |
|
|
Term
What does gonadotroph releasing hormone do? |
|
Definition
activates the release of FSH and LH by the gonadotroph |
|
|
Term
|
Definition
stimulates the release of thyroid stimulating hormone by the thyrotroph |
|
|
Term
what does cortical releasing hormone do? |
|
Definition
Stimulates the release of adrenocorticotropic hormone by the corticotroph |
|
|
Term
What types of molecules are the pituitary hormones? What is the exception to this rule? |
|
Definition
1. peptides
2. PIT (dopamine) is a catecholamine |
|
|
Term
What neurons in the hypothalmus trigger the release of RH and RIH that affect the anterior pituitary? |
|
Definition
|
|
Term
explain how the releasing hormones get to the anterior pituitary to stimulate the release of trophic hormones in the anterior pituitary |
|
Definition
1. Neural stimulation by parvacellular neurons stimulate the release of releasing hormones 2. The superior hypophyseal artery has a capillary bed that surround the stalk where these hormones are released, so they diffuse into the bloodstream. 3. They then migrate through the bloodstream to the anterior pituitary and stimulate trophic cells to release hormones |
|
|
Term
Describe the "pulse generator" system of making and putting out releasing hormones |
|
Definition
1. Neuroendocrine cells make hormones in their cell bodies and send them to axon terminals 2. several times over a day a network of neuroendocrine cells function IN UNISON to provide a synchronized release of the hormones
Note: Interneurons modulate the frequency of these releases, and feedback inhibition loops stop their activity as well |
|
|
Term
Describe how somatotrophs respond to activating releasing hormones. How does this differ from their response mechanism to inhibitory release hormones? |
|
Definition
Activation hormones: 1. Binding of hormones to surface receptors activates cAMP 2. cAMP causes sodium channel induced cell depolarization as well as Calcium influx (which is also aided by the sodium depolarization) 3. Increased calcium levels in the cell cause fusion of granules to cell membrane and exocytosis of hormones
INHIBITING: 1. Binding of hormone to surface receptor inhibits cAMP and promotes potassium efflux, hyperpolarizing the cell 2. Hyperpolarization inhibits calcium influx, lowering calcium levels in the cell and decreasing hormone release |
|
|
Term
What types of hypothalmic cell bodies manufacture posterior pituitary hormones? |
|
Definition
Magnocellular cell bodies |
|
|
Term
Describe the process of hormone manufacture and release in the magnocellular pathway |
|
Definition
1. Hormones are manufactured in the cell bodies (found in the paraventricular and supraoptic nuclei) 2. Hormones are packaged and transported down axons to nerve terminals in the pituitary, where they are stored 3. Excitation of the nerve triggers their release directly into the bloodstream
Note: The magnocellular (posterior pituitary) pathway DOES NOT have the large signal amplification associated with the anterior pituitary. The hormones are released directly into the bloodstream for target organs |
|
|
Term
What benefits are provided by the superior hypophyseal artery? |
|
Definition
1. Its capillary plexus that surrounds the median eminence provides a larger surface area for hormonal diffusion 2. It travels directly to the anterior pituitary before returning to normal circulation, allowing minimal inactivation and loss of hormone signals meant for the anterior pituitary |
|
|