endcrine Flashcards
(30 cards)
hypothalamus and pituitary gland
Hypothalamus – a region of the brain that contains centers for behavioral drives and plays a key role in homeostasis
Integration between nervous and endocrine systems
Hypothalamus controls activity of the Pituitary Gland (a lima-bean shaped structure that extends downward from the brain).
Releases hormones that act on anterior pituitary
Produces hormones stored & released from posterior pituitary
posterior pituitary
The posterior pituitary is the storage and release site for two neurohormones: oxytocin and vasopressin.
When a stimulus reaches the hypothalamus, an electrical signal passes from the neuron cell body in the hypothalamus to the distant end of the cell in the posterior pituitary.
Depending on the stimulus, two posterior pituitary neurohormones are released into the blood:
Oxytocin – In women, controls the ejection of milk during breast-feeding and contractions of the uterus during labor and delivery.
Vasopressin (also known as antidiuretic hormone or ADH) acts on the kidneys to regulate water balance in the body.
anterior pituitary(adenohypophysis)
The anterior pituitary is a true endocrine gland that secretes 6 classic hormones.
Trophic Hormones – hormones that act on other endocrine glands to stimulate growth, development and release of hormones
- prolactin PRL
- Growth Hormone GH
- Thyrotropin TSH (thyroid sitmulating hormone
- Adrenocorticotropin (ACTH)
- Luteinizing Hormone Lh
- Follicle-stimulating hormone FSH
what are the gonadotrophs
LHand FSH
PRF
PRFs prolactin releasing factor released by hypothalamus.
what is PIF
PIF (dopamine) prolactin inhibiting factor
what is TRH
thyrotropin releasing hormone released by hypothalamus, bind to thyroid gland which then release thyroid hormones
what is CRH
corticotropin releasing hormone, to ACTH, which stimulates adrenal cortex which releases cortisol
GHRH
growth homrone releasing hormone, stimulates liver, releases IGF
what is somatostatin
inhibits Growth hormone
gnRH
gonadotropin releasing hormone, to fsh and lh, targets endocrien cells of gonads, which then release androgens estrogens and progesterone, which stimulate germ cells of the gonads.
Pineal Gland
A pea-sized structure buried deep in the brain.
Secretes melatonin – “the darkness hormone” secreted at night as we sleep
Regulates circadian rhythm
Linked to sexual function, the onset of puberty, and depression in the darker winter months.
adrenal glands
The paired adrenal glands sit on top of the kidneys.
Each functions as two glands like the pituitary gland.
Adrenal Cortex – the outer glandular cortex that secretes a variety of steroid hormones (cortisol).
Adrenal Medulla – the inner neural medulla that secretes catecholamines (mostly epinephrine).
thyroid gland
Located just below the larynx
Has 2 distinct endocrine cell types:
Follicular cells – secrete thyroid hormone
C cells – Parafollicular cells which secrete calcitonin, a calcium-regulating hormone
thyroid gland:follicular cells and parafollicular cells (c cells), what are 3 hormones that regulat eth emovement of Ca and what 3 tissues do they regulate it in
Follicular cells secrete thyroid hormones which are essential for normal growth and development in children and have long-term effects on metabolism.
Parafollicular cells (C cells) secrete Calcitonin which is involved in calcium homeostasis by:
lowering blood calcium
inhibiting breakdown of calcium from bone and deposits on bone
stimulating kidneys to excrete calcium
3 hormones regulate the movement of Ca2+ between bone, kidney, and intestine: calcitonin, calcitriol, parathyroid hormone
parathyroid glands
4 Parathyroid glands embedded in the back of the thyroid gland
Secrete Parathyroid Hormone (PTH)
Function: to increase plasma Ca2+ concentrations
parathyroid glands
The stimulus for PTH release is a decrease in plasma Ca2+, monitored by a cell membrane Ca2+-sensing receptor (CaSR) found on parathyroid cells.
CaSR, is a G protein-coupled receptor
PTH acts on bone, kidney, and intestine to increase plasma Ca2+ concentrations
Negative feedback control shuts off PTH secretion
relfex pathway for endocrine
Stimulus Sensor Input signal Integration Output (efferent) signal (hormone in blood) Targets Response physiological action Negative feedback
pancreas
the pancreas has tissue that acts as both exocrine and endcrine glands
endocrine glands cells located in islets of langerhans.
pancreas
Most pancreatic tissue is devoted to the production and exocrine secretion of digestive enzymes and bicarbonate.
2% of the total mass is made up of endocrine cells found in the islets of langerhans which secrete antagonistic hormones that regulate blood sugar.
Glucagon, secreted by alpha cells, increase glucose levels
Insulin, secreted by beta cells, lower glucose levels
action of insulin
- Insulin bind to membrane receptor on its target cells.
- The insulin receptor has tyrosine kinase activity, which initiates complex intracellular cascades.
- Vesicles with GLUT 4 carrier proteins bind to the membrane.
- Glucose diffuses through GLUT4 channels
Occurs in adipose, muscle, and the liver
endocrine pathways for insulin secretion
Insulin secretion can be triggered by signals from the nervous system or by a hormone secreted from the digestive tract after a meal is eaten.
The pancreatic endocrine cells—the integrating center for these reflexes pathways—therefore must evaluate input signals from multiple sources when “deciding” whether to secrete insulin.
endocrine pathologies
“There are no good or bad hormones. A balance of hormones is important for a healthy life…Unbalance leads to disease” – W. Konig (Preface of Peptide and Proteins Hormones, New York: VCH Publishers, 1993)
There are 3 basic patterns of endocrine pathology:
- Hormone excess
- Hormone deficiency
- Abnormal responsiveness of target tissue to a hormone
endocrine pathologies: hormone excess
If a hormone is present in excessive amounts (Hypersecretion), the normal effects of the hormone are exaggerated.
Causes of hypersecretion include: benign tumors, cancerous tumors of the endocrine glands, exogenous iatrogenic treatment (exogenous – any substance coming from outside the body; iatrogenic – a physician caused condition due to medical treatment)
