Chapter 9- The Endocrine System
The chemistry of Hormones
hormones- chemical messengers made by endocrine glands
responsible for some types of regulatory effects on specific types of cells, tissues or organs
most of hormones are classified as amino-acid based molecules or steroids.
Amino acid based hormones
proteins
peptides
amines
Steriods- constructed from cholesterol
Prostanglands- produced from highly active lipids
Hormone Action
hormones only affect specific types of tissues or organs
target cells must have only a certain type of protein receptor
cells work due to the cause of hormone binding
hormones can:
activate/inactivate enzymes
stimulate or inhibit cell division
change the plasma membrane by opening or closing the ion channels
Direct Gene Activation
diffuses through the plasma membrane of target cells
goes into the nucleus
binds to a center types of protein inside the nucleus
as well as binds to a certain type of site present of cell’s DNA
activates genes that result in synthesis of brand new proteins
Second Messenger System
the hormone attaches itself to a membrane receptor
the hormone doesn’t go inside the cell
instead it sets off multiple reactions that activates an enzyme
catalyzes a reactions that makes a second messenger molecule
oversees additional intracellular change to gain a specific response
Stimuli for Control of Hormone Release
hormone blood levels are supported by negative feedback
Stimuli or low hormone levels present in the blood activate the release of more hormone
The hormones stop releasing once a normal level in the blood is reached
stimuli that activates the endocrine glands are categorized into three things:
hormonal (most common) - endocrine organs are activated into action by other organs
humoral- changes blood levels of specific types of ions when hormone release occurs
neural- stimulates hormone realease, controlled by sympathetic nervous system
The major endocrine organs
The anterior pituitary, thyroid, parathyroids, and adrenal only have endocrine functions
pancreas and gonads have both endocrine and exocrine functions
both gland types are made from epithelial tissue
endocrine glands are ductless glands that make hormones which releases into the bloodstream or lymph
exocrine glands release their substances like sweat and tears at the body’s surface or into body cavities through the ducts
Pituitary Gland and Hypothamalus
pituitary gland
about the size of a pea
hangs by a stalk from the inferior surface of the hypothalamus of the brain, tightly surrounded by the sella turcia of the sphenoid bone
has two functional lobes
anterior pituitary- glandular tissue
posterior pituitary- nervous tissue
anterior pituitary
6 anterior pituitary hormones
2 help out non endocrine glands
4 help out to stimulate the other endocrine glands
characteristics
proteins/peptides
controlled by second messenger systems
regulated by negative feedback from hormonal stimuli
Posterior pituitary and Hypothalamic Hormones
Oxytocin- hormones that is released in big amounts during childbirth and nursing.
stimulates powerful crontraction of the uterus muscle during sexual relations, labor, and breastfeeding.
causes milk ejection
used to stop postpartum feeding
stimulates the led down reflex
Antidiuretic hormone(ADH)- chemical that prevents urine production
causes kidneys to absorb more water from the already produced urine
causes amount of urine to decrease and blood amount to increase
water is essential for ADH
ADH helps with blood pressure by shrinking the small arteries, this is know as vasopressin
drinking alcohol, and drugs classified as diuretics dont allow ADH to happen
results in more urine production
alcohol causes dehydration
Growth Hormone (GH)
general metabolic hormones
helps with growth of skeletal muscles and long bones
causes amino acids to be constructed into proteins
causes lipids to be broken down into a source of energy
Thyroid Gland
found at base of the throat
made up of two lobes connected by a central mass
secretes two hormones
thyroid hormone
calcitonin
Thyroid Hormone
metabolic hormone
made up of two active iodine containing hormones
Thyroxine (T4)- produced by thyroid follicles
Triiodothyronine (T3)- conversion of T4 at target issue
Calcitonin
lowers calcium blood level by causing bone deposition
Antagonistic to parathyroid hormone
made by parafollicular cells
Parathyroid Glands
tiny masses on posterior side of the thyroid
secrete parathyroid hormone
Adrenal Glands
made up of two glands
cortex- outer glandular region in three layers
medulla- inner neural tissue region
sits on top of the kidneys
Hormones of the Ovaries
Estrogens
made by Graafian follicles of the ovaries
stimulates the development of the secondary female characteristics
matures female reproductive organs
helps make the uterus ready to receive a fertilized egg
helps maintain pregnancy
makes the breasts ready to make milk
Progesterone
made by the corpus luteum
acts with estrogen to bring about the menstrual cycle
helps withe creation of an embryo in the uterus
Hormones of the Testes
testes cells are hormone producing
produces several androgens
testosterone is the most crucial androgen
responsible for male sex characteristics
helps with growth and maturing of the male reproductive system
needed for sperm cell making
Endocrine Function of the Placenta
makes hormones that maintain pregnancy
help with the delivery of childbirth
makes human chorionic gonadotropic (HCG), estrogen, progesterone, and other hormones
Developmental Aspects of the Endocrine System
most endocrine organs function good until old age is reached
menopause occurs due to the inefficient function of the ovaries
problems linked to reduced estrogen is common, known as osteoporosis
growth hormone production decline with age
many endocrine glands decrease due to the rising of age
The chemistry of Hormones
hormones- chemical messengers made by endocrine glands
responsible for some types of regulatory effects on specific types of cells, tissues or organs
most of hormones are classified as amino-acid based molecules or steroids.
Amino acid based hormones
proteins
peptides
amines
Steriods- constructed from cholesterol
Prostanglands- produced from highly active lipids
Hormone Action
hormones only affect specific types of tissues or organs
target cells must have only a certain type of protein receptor
cells work due to the cause of hormone binding
hormones can:
activate/inactivate enzymes
stimulate or inhibit cell division
change the plasma membrane by opening or closing the ion channels
Direct Gene Activation
diffuses through the plasma membrane of target cells
goes into the nucleus
binds to a center types of protein inside the nucleus
as well as binds to a certain type of site present of cell’s DNA
activates genes that result in synthesis of brand new proteins
Second Messenger System
the hormone attaches itself to a membrane receptor
the hormone doesn’t go inside the cell
instead it sets off multiple reactions that activates an enzyme
catalyzes a reactions that makes a second messenger molecule
oversees additional intracellular change to gain a specific response
Stimuli for Control of Hormone Release
hormone blood levels are supported by negative feedback
Stimuli or low hormone levels present in the blood activate the release of more hormone
The hormones stop releasing once a normal level in the blood is reached
stimuli that activates the endocrine glands are categorized into three things:
hormonal (most common) - endocrine organs are activated into action by other organs
humoral- changes blood levels of specific types of ions when hormone release occurs
neural- stimulates hormone realease, controlled by sympathetic nervous system
The major endocrine organs
The anterior pituitary, thyroid, parathyroids, and adrenal only have endocrine functions
pancreas and gonads have both endocrine and exocrine functions
both gland types are made from epithelial tissue
endocrine glands are ductless glands that make hormones which releases into the bloodstream or lymph
exocrine glands release their substances like sweat and tears at the body’s surface or into body cavities through the ducts
Pituitary Gland and Hypothamalus
pituitary gland
about the size of a pea
hangs by a stalk from the inferior surface of the hypothalamus of the brain, tightly surrounded by the sella turcia of the sphenoid bone
has two functional lobes
anterior pituitary- glandular tissue
posterior pituitary- nervous tissue
anterior pituitary
6 anterior pituitary hormones
2 help out non endocrine glands
4 help out to stimulate the other endocrine glands
characteristics
proteins/peptides
controlled by second messenger systems
regulated by negative feedback from hormonal stimuli
Posterior pituitary and Hypothalamic Hormones
Oxytocin- hormones that is released in big amounts during childbirth and nursing.
stimulates powerful crontraction of the uterus muscle during sexual relations, labor, and breastfeeding.
causes milk ejection
used to stop postpartum feeding
stimulates the led down reflex
Antidiuretic hormone(ADH)- chemical that prevents urine production
causes kidneys to absorb more water from the already produced urine
causes amount of urine to decrease and blood amount to increase
water is essential for ADH
ADH helps with blood pressure by shrinking the small arteries, this is know as vasopressin
drinking alcohol, and drugs classified as diuretics dont allow ADH to happen
results in more urine production
alcohol causes dehydration
Growth Hormone (GH)
general metabolic hormones
helps with growth of skeletal muscles and long bones
causes amino acids to be constructed into proteins
causes lipids to be broken down into a source of energy
Thyroid Gland
found at base of the throat
made up of two lobes connected by a central mass
secretes two hormones
thyroid hormone
calcitonin
Thyroid Hormone
metabolic hormone
made up of two active iodine containing hormones
Thyroxine (T4)- produced by thyroid follicles
Triiodothyronine (T3)- conversion of T4 at target issue
Calcitonin
lowers calcium blood level by causing bone deposition
Antagonistic to parathyroid hormone
made by parafollicular cells
Parathyroid Glands
tiny masses on posterior side of the thyroid
secrete parathyroid hormone
Adrenal Glands
made up of two glands
cortex- outer glandular region in three layers
medulla- inner neural tissue region
sits on top of the kidneys
Hormones of the Ovaries
Estrogens
made by Graafian follicles of the ovaries
stimulates the development of the secondary female characteristics
matures female reproductive organs
helps make the uterus ready to receive a fertilized egg
helps maintain pregnancy
makes the breasts ready to make milk
Progesterone
made by the corpus luteum
acts with estrogen to bring about the menstrual cycle
helps withe creation of an embryo in the uterus
Hormones of the Testes
testes cells are hormone producing
produces several androgens
testosterone is the most crucial androgen
responsible for male sex characteristics
helps with growth and maturing of the male reproductive system
needed for sperm cell making
Endocrine Function of the Placenta
makes hormones that maintain pregnancy
help with the delivery of childbirth
makes human chorionic gonadotropic (HCG), estrogen, progesterone, and other hormones
Developmental Aspects of the Endocrine System
most endocrine organs function good until old age is reached
menopause occurs due to the inefficient function of the ovaries
problems linked to reduced estrogen is common, known as osteoporosis
growth hormone production decline with age
many endocrine glands decrease due to the rising of age