45 Chapter

Question 1

In animals, hormones are secreted into the extracellular fluid, circulate in the blood (or hemolymph), and communicate regulatory messages throughout the body.

Answer 1

True

Question 2

Target cells

Answer 2

Cells with the matching receptor to the hormone.

Question 3

Endocrine system basic function

Answer 3

Chemical signaling by hormones

Question 4

Nervous system

Answer 4

A network of neurons that transmit signals along dedicated pathways.

Question 5

Endocrine signaling

Answer 5

Secreted molecules diffuse into the bloodstream and trigger responses in target cells anywhere in the body. Hormones secreted into extracellular fluid by endocrine cells reach target cells via the bloodstream (or hemolymph).

Question 6

Local regulators

Answer 6

Molecules that act over short distances and reach their target cells solely by diffusion.

Question 7

Local regulators include:

Answer 7

Cytokines and growth factors

Question 8

Cytokines

Answer 8

Enable communication between immune cells

Question 9

Growth factors

Answer 9

Promote growth, division, and development of many types of cells

Question 10

Signaling by local regulators can either be ____________ or ____________

Answer 10

Paracrine, autocrine

Question 11

Paracrine signaling

Answer 11

Target cells lie near the secreting cell. Secreted molecules diffuse locally and trigger a response in neighboring cells.

Question 12

Autocrine signaling

Answer 12

The secreting cells themselves are the target cells. Secreted molecules diffuse locally and trigger a response in the cells that secrete them.

Question 13

Prostaglandin

Answer 13

Are modified fatty acid local regulators that are secreted by virtually all tissues and that perform a wide variety of functions. For example, it functions in reproduction and in inflammation and blood clotting as part of the immune system

Question 14

Synapses

Answer 14

Are specialized junctions between two nerve cells where they communicate with each other by transmitting electrical or chemical signals.

Question 15

Neurotransmitter

Answer 15

A molecule that is released from the synaptic terminal of a neuron at a chemical synapse, diffuses across the synaptic cleft, and binds to the postsynaptic cell, triggering a response.

Question 16

Synaptic signaling

Answer 16

Neurotransmitters diffuse across synapses and trigger responses in cells of target tissues (neurons, muscles, or glands).

Question 17

Neurohormone

Answer 17

A molecule that is secreted by a neuron, travels in body fluids, and acts in specific target cells, changing their functioning.

Question 18

Neuroendocrine signaling

Answer 18

Neurohormones diffuse into the bloodstream and trigger responses in target cells anywhere in the body.

Question 19

Pheromones

Answer 19

Chemicals that are released into the external environment.

Question 20

Nitric oxide (NO)

Answer 20

A gas produced by many types of cells that functions as a local regulator and as a neurotransmitter. When the level of oxygen in the blood falls, endothelial cells in blood vessel walls synthesize and release NO. After diffusing into the surrounding smooth muscle cells, NO activated an enzyme that relaxes the cells. The result is vasodilation, which increases blood flow to tissues.

Question 21

Hormones fall into three major chemical classes:

Answer 21

Polypeptides, steroids, and amines

Question 22

Polypeptide hormone characteristics

Answer 22

-Water-soluble (hydrophilic)
-Contains two chains in its active form
Ex. Insulin

Question 23

Steroid hormone characteristics

Answer 23

-Lipid-soluble (hydrophobic)
-Are lipids that contain four fused carbon rings.
-Are all derived from the steroid cholesterol.
Ex. Cortisol

Question 24

Amine hormones

Answer 24

-Can be hydrophilic or hydrophobic
-Are synthesized from a single amino acid, either tyrosine or tryptophan
Ex. Epinephrine and thyroxine

Question 25

Water-soluble hormone cellular response pathways

Answer 25

Water-soluble hormones are secreted by exocytosis and travel freely in the bloodstream. These hormones bind to cell-surface receptors because of their lipid insolubility.

Question 26

Lipid-soluble hormones cellular response pathways

Answer 26

Lipid-soluble hormones diffuse out across the membranes of endocrine cells. Outside the cell, they bind to transport proteins that keep them soluble in the aqueous environment of the blood. Upon leaving the blood, they diffuse into target cells and typically bind to receptors in the cytoplasm or nucleus.

Question 27

Signal transduction

Answer 27

The series of changes in cellular proteins that converts the extracellular chemical signal to a specific intracellular response.

Question 28

Epinephrine (adrenaline)

Answer 28

A water-soluble hormone that binds to the G protein-coupled receptor in the membrane of target cells in the liver and ultimately causes the liver to release glucose into the bloodstream. In smooth muscle cell lining blood vessels that supply skeletal muscle, epinephrine leads to vasodilation and hence increased blood flow to skeletal muscles. In the smooth muscle cells lining blood vessels of the intestines, epinephrine leads to vasoconstriction, restricting blood flow to the intestines.

Question 29

In most cases, the response to a lipid-soluble hormone is a _____________

Answer 29

Change in gene expression

Question 30

Endocrine glands

Answer 30

A ductless gland that secretes hormones directly into the interstitial fluid, from which they diffuse into the bloodstream.

Question 31

Note that endocrine glands secrete hormones directly into the surrounding fluid. In contrast, exocrine glands, such as salivary glands, have ducts that carry secreted substances onto body surfaces or into body cavities.

Answer 31

True

Question 32

Human endocrine glands:

Answer 32

Pineal gland
Hypothalamus
Pituitary gland
Thyroid gland
Parathyroid glands
Adrenal glands
Pancreas
Ovaries (female)
Testes (male)

Question 33

Pineal gland hormone(s)

Answer 33

Melatonin: Participates in regulation of biological rhythms.

Question 34

Hypothalamus hormone(s)

Answer 34

-Hormones released from posterior pituitary (oxytocin and vasopressin)
-Releasing and inhibiting hormones: Regulate anterior pituitary

Question 35

Pituitary gland structures

Answer 35

Anterior pituitary
Posterior pituitary

Question 36

Anterior pituitary hormone(s)

Answer 36

-Follicle-stimulating hormone (FSH) and luteinizing hormone (LH): stimulate ovaries and testes
-Thyroid-stimulating hormone (TSH): Stimulates thyroid gland
-Adrenocorticotropic hormone (ACTH): Stimulates adrenal cortex
-Prolactin: Stimulates mammary gland cells
-Growth hormone (GH): Stimulates growth and metabolic functions

Question 37

Posterior pituitary hormone(s)

Answer 37

-Oxytocin: Stimulates contraction of smooth muscle cells in uterus and mammary glands
-Vasopressin: Promotes retention of water by kidneys; influences social behavior and bonding

Question 38

Thyroid gland hormone(s)

Answer 38

-Thyroid hormone (T3 and T4): Stimulates and maintains metabolic processes
-Calcitonin: Lowers blood calcium level

Question 39

Parathyroid glands hormone(s)

Answer 39

-Parathyroid hormone: Raises blood calcium level

Question 40

Adrenal glands structures

Answer 40

Adrenal medulla
Adrenal cortex

Question 41

Adrenal medulla hormone(s)

Answer 41

Epinephrine and norepinephrine: Raise blood glucose level; increase metabolic activities; constrict blood vessels

Question 42

Adrenal cortex hormone(s)

Answer 42

-Glucocorticoids: Raise blood glucose level
-Mineralcorticoids: Promote reabsorption of Na+ and excretion of K+ in kidneys

Question 43

Pancreas hormone(s)

Answer 43

-Insulin: Lowers blood glucose level
-Glucagon: Raises blood glucose level

Question 44

Ovaries hormone(s)

Answer 44

-Estrogens: Stimulates uterine lining growth; promote development and maintenance of female secondary sex characteristics
-Progestins: Promote uterine lining growth

Question 45

Testes hormone(s)

Answer 45

-Androgens: Support sperm formation; promote development and maintenance of male secondary sex characteristics

Question 46

In a simple endocrine pathway,

Answer 46

Endocrine cells respond directly to an internal or environmental stimulus by secreting a particular hormone.

Question 47

In a simple neuroendocrine pathway,

Answer 47

The stimulus is received by a sensory neuron, which stimulates a neurosecretory cell. The neurosecretory cell then secretes a neurohormone, which diffuses into the bloodstream and travels to target cells.

Question 48

Oxytocin

Answer 48

A hormone (or neurohormone) produced by the hypothalamus and released from the posterior pituitary. It induces contractions of the uterine muscles during labor and causes the mammary glands to eject milk during nursing.

Question 49

Negative feedback

Answer 49

The response reduces the initial stimulus

Question 50

Positive feedback

Answer 50

Reinforces a stimulus, leading to an even greater response

Question 51

Hypothalamus

Answer 51

The ventral part of the vertebrate forebrain; functions in maintaining homeostasis, especially in coordinating the endocrine and nervous systems; secretes hormones of the posterior pituitary and releasing factors that regulate the anterior pituitary.

Question 52

Pituitary gland

Answer 52

An endocrine gland located at the base of the hypothalamus; consists of a posterior lobe, which stores and releases two hormones produced by the hypothalamus, and an anterior lobe, which produces and secretes many hormones that regulate diverse body functions.

Question 53

The posterior pituitary is an extension of the hypothalamus.

Answer 53

True

Question 54

Anterior pituitary

Answer 54

An endocrine gland that synthesizes and secretes hormones in response to hormones from the hypothalamus.

Question 55

Each hypothalamic hormone is either a _________________ or an ____________.

Answer 55

Releasing hormone, inhibiting hormone

Question 56

Prolactin

Answer 56

A hormone produced and secreted by the anterior pituitary with a great diversity of effect in different vertebrate species. In mammals, it stimulates growth of and milk production by the mammary glands.

Question 57

Every anterior pituitary hormone is controlled by at least one releasing hormone.

Answer 57

True

Question 58

Tropic hormones, or tropins

Answer 58

A hormone that has an endocrine gland or endocrine cells as a target. For example, hormone cascade pathways.

Question 59

FSH and LH are considered _____________ because they…

Answer 59

Gonadotropins
Convey signals from the hypothalamus to the gonads (testes or ovaries)

Question 60

Thyroid hormone

Answer 60

Either of two iodine-containing hormones (triiodothyronine and thyroxine) that are secreted by the thyroid gland and that help regulate metabolism, development, and maturation in vertebrates.

Question 61

Thyroid gland

Answer 61

An endocrine gland, located on the ventral surface of the trachea, that secretes two iodine-containing hormones, triiodothyronine (T3) and thyroxine (T4), as well as calcitonin.

Question 62

Hypothyroidism

Answer 62

The secretion of too little thyroid hormone; can cause weight gain, lethargy, and intolerance to cold in adults.

Question 63

Hyperthyroidism

Answer 63

Excessive secretion of thyroid hormone; can lead to high body temperature, profuse sweating, weight loss, irritability, and high blood pressure.

Question 64

Growth hormone (GH)

Answer 64

A hormone that is produced and secreted by the anterior pituitary and that has both direct (nontropic) and tropic effects on a wide variety of tissues. In the liver, GH causes the release of insulin-like growth factors (IGFs), which circulate in the blood and directly stimulate bone and cartilage growth.

Question 65

Parathyroid glands

Answer 65

A set of four small structures embedded in the posterior surface of the thyroid hormone, play a major role in blood Ca2+ regulation.

Question 66

Parathyroid hormone (PTH)

Answer 66

A hormone secreted by the parathyroid glands that raises blood calcium level by promoting calcium release from bone and calcium retention by the kidneys.

Question 67

Calcitonin

Answer 67

A hormone that inhibits bone breakdown and enhances Ca2+ excretion by the kidneys.

Question 68

Adrenal glands

Answer 68

Two endocrine glands located adjacent to the kidneys in mammals. Is made up of two parts, the adrenal cortex, the outer part, and the adrenal medulla, the central part.

Question 69

The adrenal cortex consists of true cells, whereas the secretory cells of the adrenal medulla develop from neural tissue. This, like the pituitary gland, each adrenal gland is a fused endocrine and neuroendocrine gland.

Answer 69

True

Question 70

Catecholamines

Answer 70

A class of amine hormones synthesized from the amino acid tyrosine. Includes both epinephrine and norepinephrine

Question 71

The adrenal medulla secretes epinephrine and norepinephrine in response to short-term stress.

Question 72

The adrenal cortex functions in the body’s response to long-term stress.

Answer 72

True

Question 73

In contrast to the adrenal medulla, which reacts to nervous input, the adrenal cortex responds to endocrine signals.

Answer 73

True

Question 74

Glucocorticoids

Answer 74

A steroid hormone that is secreted by the adrenal cortex and that influences glucose metabolism and immune function. Promote glucose synthesis from noncarbohydrate sources, such as proteins, making more glucose available as fuel. Glucocorticoids also act on skeletal muscle, causing the breakdown of muscle proteins. The resulting amino acids are transported to the liver and kidneys, where they are converted to glucose and released into the blood.

Question 75

Mineralocorticoids

Answer 75

A steroid hormone secreted by the adrenal cortex that regulates salt and water homeostasis.

Question 76

The gonads produce and secrete three major types of steroid sex hormones:

Answer 76

androgens, estrogens, and progestins.

Question 77

Androgens

Answer 77

Any steroid hormone, such as testosterone, that stimulates the development and maintenance of the male reproductive system and secondary sex characteristics.

Question 78

Testosterone

Answer 78

A steroid hormone required for development of the male reproductive system, spermatogenesis, and male secondary sex characteristics; the major androgen in mammals.

Question 79

Anabolic

Answer 79

Muscle-building

Question 80

Use of anabolic steroids, while effective in increasing muscle mass, can cause severe acne outbreaks and liver damage, as well as significant decreases in sperm count and testicular size.

Answer 80

True

Question 81

Estrogens

Answer 81

Any steroid hormone, such as estradiol, that stimulates the development and maintenance of the female reproductive system and secondary sex characteristics.

Question 82

Estradiol

Answer 82

A steroid hormone that stimulates the development and maintenance of the female reproductive system and secondary sex characteristics; the major estrogen in mammals.

Question 83

Progestins

Answer 83

Any steroid hormone with progesterone-like activity.

Question 84

Progesterone

Answer 84

A steroid hormone that prepares the uterus for pregnancy; the major progestin in mammals.

Question 85

Endocrine disruptor

Answer 85

A foreign molecule that interrupts the normal function of a hormone pathway.

Question 86

Melatonin

Answer 86

A hormone that is secreted by the pineal gland and that is involved in the regulation of biological rhythms and sleep.

Question 87

Pineal gland

Answer 87

A small gland in the dorsal surface of the vertebrate forebrain that secretes the hormone melatonin.

Question 88

Suprachiasmatic nucleus (SCN)

Answer 88

A group of neurons in the hypothalamus that control the pineal gland. The SCN functions as a biological clock and receives input from specialized light-sensitive neurons in the retina of the eye.

Question 89

Melanocyte-stimulating hormone (MSH)

Answer 89

A hormone produced and secreted by the anterior pituitary with multiple activities, including regulating the behavior of pigment-containing cells in the skin of some vertebrates.