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Chapter 45 Chemical Signals in Animals. The endocrine system and the nervous system are structurally, chemically, and functionally related. Regulatory systems. Hormone ~ chemical signal secreted into body fluids (blood) communicating regulatory messages
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Chapter 45 Chemical Signals in Animals • The endocrine system and the nervous system are structurally, chemically, and functionally related.
Regulatory systems • Hormone~ chemical signal secreted into body fluids (blood) communicating regulatory messages • Target cells~ body cells that respond to hormones • Endocrine system/glands~ hormone secreting system/glands (ductless); exocrine glands secrete chemicals (sweat, mucus, enzymes) through ducts • Neurosecretory cells~ specialized nerve cells that secrete hormones • Feedback mechanisms ~ negative and positive (feature that is also common in the nervous system)
Local regulators: cells adjacent to or near point of secretion • Growth factors ~ proteins for cell proliferation • Nitric oxide (NO) ~ (highly reactive& potentially toxic) neurotransmitter; cell destruction (bacteria, cancer cells); vessel dilation • Prostaglandins ~ modified fatty acids secreted by placenta (induce labor) and immune system (fever, pain); also found in semen (contract smooth muscle in uterus helping convey sperm to egg.
Mode of Action: Chemical Signaling • 1- Plasma membrane reception • signal-transduction pathways (neurotransmitters, growth factors, most hormones) • 2- Cell nucleus reception • steroid hormones, thyroid hormones, some local regulators
Vertebrate Endocrine System Page 961 • Tropic hormones ~ a hormone that has another endocrine gland as a target • Hypothalamus: causes release of hormones produced by posterior pituitary and regulates anterior pit. • Pituitary gland • Pineal gland • Thyroid gland • Parathyroid glands • Thymus • Adrenal glands • Pancreas • Gonads (ovary, testis)
The hypothalamus & pituitary • Releasing and inhibiting hormones • Anterior pituitary: • Growth (GH)~bones √gigantism/dwarfism √acromegaly • Prolactin (PRL)~mammary glands; milk production • Follicle-stimulating (FSH) & • Luteinizing (LH)~ovaries/testes • Thyroid-stimulating (TSH)~ thyroid • Adrenocorticotropic (ACTH)~ adrenal cortex • Melanocyte-stimulating (pigment cells)(MSH) • Endorphins~natural ‘opiates’; brain pain receptors
The pituitary • The posterior pituitary: • Oxytocin~ uterine and mammary gland cell contraction • Antidiuretic (ADH)~ retention of water by kidneys, increase permiability of epithelium to water, amplifies water reabsorption
The pineal, thyroid, & parathyroid • Melatonin~ pineal gland; biological rhythms • Thyroid hormones: Calcitonin~ lowers blood calcium Thyroxine~ metabolic processes • Parathyroid (PTH)~raises blood calcium
The pancreas • Islets of Langerhans (clusters of endocrine cells that secrete hormones) • Alpha cells: • •glucagon~ raises blood glucose levels • Beta cells: • •insulin~ lowers blood glucose levels • Type I diabetes mellitus (insulin-dependent; autoimmune disorder, attack mounted on pancreas cells) • Type II diabetes mellitus (non-insulin-dependent; reduced responsiveness in insulin targets)
The adrenal glands • Adrenal medulla (catecholamines-synthesisized from AA tyrosine): •epinephrine & norepinephrine~increase basal metabolic rate (blood glucose and pressure) • Adrenal cortex (corticosteroids): •glucocorticoids(cortisol)~raise blood glucose•mineralocorticoids (aldosterone)~reabsorption of Na+ and K+
The gonads • Steroid hormones: precursor is cholesterol • androgens (testosterone)~ sperm formation; male secondary sex characteristics, gonadotropin • Estrogens (estradiol)~uterine lining growth; female secondary sex characteristics; gonadotropin • Progestins (progesterone)~uterine lining growth
Signal Transduction Pathway • Signal- transduction pathways allow for small amounts of a hormone to have a large effect.
Endocrine System • How are chemical signals in the body transmitted from cell to cell? • Chemical signals called transmitters include amino acids, polypeptides, and gases that can be received by other cells via a protein receptor on the surface of the receiving cell or by entering the cell directly.
What are some of the sources of the body’s chemical signals? • Neurotransmitters from nerve cells. • Endocrine signals from endocrine glands. • How are endocrine signals different from nerve cell signals? • Neurotransmitters are usually small, nitrogen-containing compounds that are conveyed from one specialized nerve cell to another along specific nerve highways throughout the body and are designed to elicit immediate responses
Endocrine signals are usually hormones secreted from glands that use blood vessels to disperse their signal molecules, to elicit a slower response. • How are endocrine signals similar to neurotransmitters? • Some molecules, such as epinephrine, serve as both neurotransmitters and endocrine signals;some specialized nerve cells called neurosecretory cells are located in the endocrine glands and secrete hormones into the bloodstream.
Hormones • Hormones, the most common class of signal molecule used by endocrine glands, affect every cell in the body. How is it possible that very diverse types of cells can respond to these signals? • While some hormones require surface receptors, most hormones because they are small and non-polar, can pass through the cell membranes without a channel or receptor and proceed directly to a receptor in the cytoplasm or go into the nucleus to act as a gene activator.
Trophic Hormones • Some endocrine signals target other glands, stimulating them to secrete their own signals. What is this type of domino effect called? • These signals are called trophic hormones.
Endocrine Review • Brain: hypothalamus, pituitary, pineal • Pituitary: Anterior Posterior • Endorphines ADH • GH (Growth Hormones) Oxytocin • ACTH (adrenal cortex • TSH (thyroid stimulating) • PRL (prolactin) • LSH,FSH (gonads) • MSH (Melanocyte cells-melatonin (skin pigment)
Thyroid • Metabolism (throxine)-metabolism, (calcitonin) decrease Ca+ • Parathyroid (PTH)-Increase Ca+ • A dramatic drop in calcium would cause convulsive contractions of skeletal muscles • Adrenal Glands (top of kidneys)- fight or flight • Medulla • norepinephrine and epinephrine increase metabolism, increase glucose (breakdown of glycogen)& pressure • -Cortex- increase glucose, reabsorption of k+, Na+
Pancreas- • Alpha cells (glucagon)-increase glucose • Beta cells (insulin) decrease • Gonads- steroids, • testosterone, estrogens, progestins