PHGY 210 Study Guide - Membrane Potential, Antithyroid Agent, Gonadotropin
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- Involves hormone secretion into the blood by endocrine gland.
- To hormone is transported by the blood to a distant target site.
- Example of long-distant signalling:
oThe anterior pituitary gland releases LH and FSH which are transported to the
gonads (target site) through the blood vessels. The gonads then release steroid
hormones (estrogens in females and androgens in males)
- Involves release of neurohormones from neurones.
- These travel to a non-neuronal tissue and elicit hormonal response.
- Paracrine signalling:
oEx: parathyroid hormone related peptide is a paracrine signalling hormone
- Autocrine signalling:
oEx: cancer cells release factors that tell the cells to divide.
Six steps of hormonal communication:
1. Synthesis of the hormone or neurohormone by endocrine cells or neurones.
2. Release of the hormone or neurohormone
3. Transport of the hormone or neurohormone to the target site by the blood stream
4. Detection of the hormone or neurohormone by a specific receptor protein on the target
5. Change in cellular metabolism triggered by the hormone-receptor interaction
6. Removal of the hormone, which often terminates the cellular response (often through
negative feedback loops)
oMany of these steps are site of regulation that allows the control of hormonal
oSteps 4 and 5 are universal. They are absolutely necessary for proper
communication to occur.
oCertain dietary substances also function as hormonal signalling molecules.
Classical endocrine organs:
- Anterior pituitary gland
- Posterior pituitary gland
- Thyroid gland
- Parathyroid gland
- Heart (release of atrial natriuretic peptides)
- Adrenal glands: cortex and medulla
- Pancreas: islets of Langerhans
oOvaries in female
oTestis in male
- Via blood vessels of the pituitary stalk
- Hypothalamic-hypohyseal Portal System: from the hypothalamus to the
- Hypothalamic neurohormones act on one of the six types of hormone-producing
cells in the anterior pituitary.
- They can be of two types:
Classes of hormones based on their structures:
Tells nothing about physiology and receptors (except for steroids)
oPolypeptides with sugars attached to their surface
oVitamin D is a metabolite of steroids
oLipohilic molecules. They can get in the cell on their own by passing through
the phospholipids bilayer and then act on the nuclear receptors in the cytoplasm
or in the nucleus.
oAll steroid hormones are structurally very similar. They all have a common core
of four rings.
Synthesis of protein hormones
- Any hormone that is a protein in nature is encoded by one or many genes.
- Synthesis of preprohormones is done on ribosomes attached to the rough ER.
- They are then processed in the ER to become prohormones.
- They then pass through the Golgi apparatus and are packaged into secretory vesicles
Structures of thyroid hormones:
Properties of hormone receptors :
1. Specificity: recognition of single hormone or hormone family.
2. Affinity: high affinity for a hormone = binding hormone at its physiological level.
3. Saturability: finite number of receptors
4. Measurable biological effect: measurable biological response due to the interaction of
hormone with its receptor.
1. T4 has four iodine groups
2. T3 has three iodine groups
3. If you lack thyroid hormones, you end
up short and dumb (dwarfism and
Receptors can be upregulated either by increasing their activity in response
to hormone or their synthesis.
Receptors can be downregulated either by decreasing their activity or their
Mechanisms by which a hormone can exert effects on target cells:
1. Direct effects on function at the cell membrane:
Usually through series of phosphorylation
2. Intracellular effect mediated by second messenger systems:
Ex: G-protein coupling
3. Intracellular effects mediated by genomic or nuclear action
Influences expression of a subset of genes
Effect on nuclear receptors
Feedback control of hormone secretion:
- Secreted hormones are precisely regulated by feedback mechanisms
- Regulation may be mediated by either hormonal or non-hormonal mechanisms
- Non-hormonal feedback is not conceptually different from hormonal feedback
oCRH = corticotropin releasing hormone
oACTH = adrenocorticotropic hormone
oCortisol is a glucocorticoid
The pituitary Gland:
Anatomy Located under the hypothalamus
Two distinctly different tissues:
1. Adenohypophysis (anterior pituitary or pars distalis)
2. Neurohypophysis (posterior pituitary or pars nervosa)
Signalling between the hypothalamus and the pituitary:
oThe hypothalamus is a rich source of hormones
oCan have two effects: increase or release of hormones in the
Posterior Pituitary Gland:
oOutgrowth of the hypothalamus connected by the pituitary
oPrehormones processed in secretory granules during axonal
oMature hormones liberated from the carrier molecules ,
oMost are peptides in nature
oArginine vasopressin (ADH) and oxytocin differ only by two
a.a. They are evolutionary products of a gene duplication.
ADH controls blood pressure, while oxytocin controls uterine
contractions and lactation.
oDopamine is a prolactin-inhibiting hormone (PIH).
oThyrotropin releasing hormone (TRH) is formed of only 3 a.a.
Involves hormone secretion into the blood by endocrine gland. To hormone is transported by the blood to a distant target site. Example of long-distant signalling: the anterior pituitary gland releases lh and fsh which are transported to the gonads (target site) through the blood vessels. The gonads then release steroid hormones (estrogens in females and androgens in males) These travel to a non-neuronal tissue and elicit hormonal response. Paracrine signalling: ex: parathyroid hormone related peptide is a paracrine signalling hormone, ex: cancer cells release factors that tell the cells to divide. They are absolutely necessary for proper: certain dietary substances also function as hormonal signalling molecules. communication to occur. Pancreas: islets of langerhans: ovaries in female, testis in male. Via blood vessels of the pituitary stalk. Hypothalamic-hypohyseal portal system: from the hypothalamus to the. Hypothalamic neurohormones act on one of the six types of hormone-producing adenohypohysis.