Ch. 45: - PowerPoint PPT Presentation

1 / 36
About This Presentation
Title:

Ch. 45:

Description:

The two systems of internal communcation: Nervous System & Endocrine System ... mammary glands to eject milk during. nursing. ADH: regulates osmolarity of the blood; ... – PowerPoint PPT presentation

Number of Views:33
Avg rating:3.0/5.0
Slides: 37
Provided by: laus204
Category:
Tags: eject

less

Transcript and Presenter's Notes

Title: Ch. 45:


1
Ch. 45 Chemical Signaling in Animals
2
  1. Introduction to Regulatory Systems
  • Hormone A chemical signal that is secreted
  • into body fluids communicate regulatory
  • messages.
  1. Target Cells Responds to hormones.
  • The two systems of internal communcation
  • Nervous System Endocrine System
  • Endocrine System hormone-secreting
  • cells endocrine glands are ductless glands
  • that secrete their chemical messengers
  • directly into body fluids.
  • Neurosecretory cells are specialized nerve
  • cells that are a part of endocrine organs.
  • 3.Ex. Of hormone Epinephrine, acts as the
  • fight or flight hormone and also as a
  • neurotransmitter.

3
  • Invertebrate reguatory systems clearly show
  • endocrine and nervous system interaction
  • Hormones function in reproduction
  • and development.
  • a. Example Mollusk Aplysia, secretes a
  • hormone that stimulates the laying of eggs
  • and inhibits the feeding and locomotion,
  • activities that interfere with reproduction.
  • Insects and crustaceans molt, triggered
  • by a hormone called ecdysone.
  • -Ecdysone is secreted by prothoracic
  • glands
  • -Ecdysone also favors the development
  • of adult characteristics stimulates
  • metamorphosis

4
-Ecdysone production is controlled by a hormone
called brain hormone (BH).
-Ecdysone and BH are controlled by the juvenile
hormone (JH).
5
  1. Chemical Signals and Their Modes of Action
  • Growth Factors peptides and proteins that
  • stimulate cell proliferation.
  • Epidermal Growth Factor (EGF)
  • Accelerates epidermal development
  • Insulinlike Growth Factors (IGF) produced
  • in the liver essential to skeletal develop-
  • ment.
  • Nitric Oxide (NO)
  • -Highly reactive and potentially toxic
  • -acts like a neurotransmitter in neurons
  • -when released by white blood cells, kills
  • bacteria and cancer cells
  • -dilates walls of blood vessels

6
C.Prostaglandins (PGs) modified fatty
acids -in semen, stimulate contraction of
smooth muscles in the wall of the uterus
(helping sperm move towards egg) -secreted by
placental cells can cause labor in
childbirth -Defense induce fever and
inflammation, and increase pain -Examples
  • Prostaglandin E (PGE) causes muscles
  • to relax dilates blood vessels and
  • promotes oxygenation of the blood
  • Prostaglandin F (PGF) signals muscles
  • to contract constricts vessels and reduces
  • blood flow to lungs
  • ? These two are antagonistic

7
  • Most chemical signals bind to plasma
  • membrane proteins, initiating signal-
  • transduction pathways (Ch. 11. Also see
  • Activities for Ch. 45 on the Campbell website)
  • Different signal-transduction pathways in
  • different cells can lead to different
  • responses to the same signal.
  • Example Acetylcholine can produce
  • different responses in different target cells.

8
(No Transcript)
9
  • One
  • hormone
  • can have
  • a large
  • effect.

10
  • Steroid hormones, thyroid hormones, and
  • some local regulators enter target cells by
  • binding to intracellular receptors.
  • Examples Estrogen, progesterone,
  • vitamin D, NO
  • ? See Campbell website, Ch. 45 Hormone
  • Activity

11
  1. The Vertebrate Endocrine System
  • Tropic Hormones target other endocrine
  • glands and are important to understandingchemica
    l coordination.
  • Humans have NINE
  • endocrine glands
  • Hypothalamus
  • releases hormones
  • that stimulate and
  • inhibit the anterior
  • pituitary (adeno-
  • hypophysis).

-Releasing hormones -Inhibiting hormones
12
  • Pituitary has 2
  • parts
  • Anterior
  • Posterior

13
  • Hormones from the hypothalamus regulates
  • anterior pituitary hormones, which stimulate
  • many other hormones.

14
The posterior pituitary (neurohypophysis) is a
small bulge of the hypothalamus that stores and
secretes hormones made by the hypothalamus ADH
(antidiuretic hormone) and oxytocin.
15
  1. Posterior Pituitary Hormones
  • Oxytocin acts on muscles of the uterus
  • induces contraction of the uterine
  • muscles during childbirth and causes
  • mammary glands to eject milk during
  • nursing.
  • ADH regulates osmolarity of the blood
  • stimulates water reabsorption
  1. Anterior Pituitary Hormones
  • Growth hormone (GH)
  • -protein, about 200 amino acids long
  • -has a wide variety of target tissues
  • -stimulates growth of bones and cartilage
  • -signal the liver to produce insulinlike
  • growth factors (IGFs)

16
-Too much GH as a child ? gigantism -Too much GH
as an adult ? abnormal growth of bones in
hands, feet, and head acromegaly
-GH deficiencies as a child can be treated
with GH from cadavers.
  • Insulinlike growth
  • factors (IGFs)
  • -Stimulates bone and
  • cartilage growth

17
  • Prolactin (PRL)
  • -Similar in structure to GH
  • -Diverse effects Stimulates mammary
  • to produce milk, regulates fat metabolism
  • and reproduction in birds, delays
  • metamorphosis in amphibians, regulates
  • salt and water balance in fish
  • ? Diversity suggests its an ancient
  • hormone whose function has evolved
  • during the evolution of vertebrates.

18
  • The tropic hormones
  • 1.Follicle-Stimulating Hormone (FSH)
  • stimulate gonads (testes, ovaries)
  • 2.Lutenizing hormone (LH)
  • stimulate gonads (testes, ovaries)
  • 3.Thyroid-stimulating Hormone (TSH)
  • regulates the release of thyroid
  • hormones
  • 4.Adrenocorticotropic Hormone (ACTH)
  • stimulates the production and secretion
  • of steroid hormones by the adrenal
  • cortex.

Gonadotropins
19
  • Melanocyte-Stimulating Hormone (MSH)
  • regulates the activity of pigment-
  • containing cells in the skin.
  • It also regulates fat metabolism.
  • Endorphins Class of molecules called
  • natural opiates, giving a natural high
  • because they inhibit the perception of
  • pain. Exercise releases endorphins.
  • Opiate drugs mimic endorphins.

20
  • Pineal Gland hormones Involved in
  • biorhythms
  • Melatonin Modified
  • amino acid
  • Melatonin is secreted at night, and the
  • amount secreted depends on the length
  • of the night.
  • Winter more melatonin secreted
  • Summer less melatonin secreted

21
  • Affects skin pigmentation (more
  • darker skin)
  • Associated with biological rhythms
  • ? biological clocks
  1. Thyroid hormones
  • Two lobes around the trachea
  • Produces Calcitoninhormone that
  • controls Ca2 levels
  • in blood
  • c.Produces T3 T4
  • hormones
  • ? T4 converts to T3
  • in target cells
  • d.T3 and T4 are
  • derived from
  • amino acid tyrosine.

22
  • Tyroid gland plays a crucial role in
  • development and maturation.
  • ? Tadpole into a frog
  • ? Cretinism in humans thyroid
  • deficiency causes retarded skeletal
  • growth and mental development.
  • Tyroid gland helps maintain homeostasis
  • -Blood pressure
  • -Heart rate
  • -Muscle tone
  • -Digestion
  • -Reproductive functions

23
  • Hyperthyroidism excess secretion of
  • thyroid hormones
  • g.Hypothyroidism shortage of thyroid
  • hormones
  • h.Goiterism shortage of thyroid hormones

Great website to visit! http//www.biosbcc.net/ba
rron/physiology/endo/thyr.htm
24
  • Feedback control loops regulating the
  • secretion of T3 and T4.

25
  • Parathyroid hormones
  • a. Four parathyroid glands embedded in
  • the surface of the thyroid, function in
  • the homeostasis of calcium ions (Ca 2 ).

-They secrete parathyroid hormone (PTH), which
raises blood levels of Ca2 (opposite of
calcitonin).
26
(No Transcript)
27
  1. Endocrine tissues
  • Pancreas two tissue
  • -Exocrine produces bicarbonate ions
  • and digestive enzymes that are carried
  • to the small intestines via the
  • pancreatic duct.
  • -Endocrine (1-2 of pancreas)
  • 1. Islets of Langerhans
  • ? secretes glucagon from its alpha
  • cells
  • ? secretes insulin from its beta
  • cells

-Insulin and glucagon are antagonistic hormones
that regulate the concentration of glucose in
blood.
28
(No Transcript)
29
  • -Type I diabetes mellitus autoimmune
  • disorder immune system attacks the
  • cells of the pancreas.
  • Occurs in childhood
  • person cannot produce insulin
  • treatment daily injections of insulin
  • -Type II diabetes mellitus non-insulin
  • dependent diabetes
  • characterized by deficiency in insulin or
  • reduced responsiveness in target cells
  • due to changes in insulin receptors
  • usually occurs after age 40
  • 90 of diabetics are type II
  • can be managed by exercise and
  • dietary control
  • heredity and obesity are major factors

30
  • Adrenal medulla and Adrenal cortex
  • hormones
  • Adrenal glands adjacent to the kidneys
  • -Medulla central part
  • -Cortex outer part

31
  • Catecholamines
  • 1. Epinephrine (aka adrenaline)
  • 2. Norepinephrine (aka noradrenaline)
  • Released due to positive and negative
  • stress.
  • Produces a rapid bioenergetic boost
  • increasing basal metabolic rate
  • Produces the fight or flight response
  • Increases the rate of glycogen break-
  • down and glucose release into blood
  • Stimulate the release of fatty acids from
  • fat cells
  • Increases rate and stroke volume of
  • heart rate
  • Increases rate of oxygen delivery to
  • body

32
  • Moves blood away from skin, digestive
  • organs, and kidneys, while increasing
  • blood supply to heart, brain, and
  • skeletal muscles.
  • What causes the release of epinephrine
  • and norepinephrine?
  • -adrenal medulla is under control of
  • nerve cells from the sympathetic
  • division of the autonomic nervous
  • system
  • -Under stress, the nerve cells are excited
  • and release the neurotransmitter
  • acetylcholine. Acetylcholine stimulates
  • the release of epinephrine.

33
-Adrenal cortex secretes steroids called
corticosteroids when acted upon by ACTH (from
the anterior pituitary gland). -Three types of
corticosteroids 1.Glucocorticoids (ex.
Cortisol) promotes the synthesis of glucose
from noncarbohydrate sources (protein). ?
Glucocorticoids act on skeletal muscles to
break down protein to be converted to glucose.
  • Mineralocorticoids (ex. Aldosterone)
  • effects salt and water balance.
  • Aldosterone stimulates the kidney to
  • reabsorbe sodium and water from the
  • filtrate, raising blood pressure and
  • volume.

34
(No Transcript)
35
  • Sex hormones, androgen (male
  • hormones) estrogen, and
  • progesterone (female hormones).

9. Gonadal steroids
  • Gonads produce and secrete androgens,
  • estrogens, and progestins.
  • All 3 are found in both males and
  • females but in different proportions.
  • All are produced in testes and ovaries.
  • Affect growth and development and also
  • regulate reproductive cycles and sexual
  • behavior.
  • Testes primarily produce androgens, the
  • main such hormone being testosterone.
  • Estrogen maintain and develop female
  • reproductive system.

36
  • Progestins (progesterone) are primarily
  • involved in preparing and maintaining
  • the uterus, which supports the growth
  • and development of the embryo.
  • Synthesis of estrogens and androgens
  • are controlled by gonadotropins FSH and
  • LH. FSH and LH are controlled by the
  • hormone GnRH (gonadotropin-releasing
  • hormone) released by the hypothalamus.
Write a Comment
User Comments (0)
About PowerShow.com