topic 6.6 - hormones, homeostasis, and reproduction

Question 1

function of cells in the pancreas

Answer 1

to respond to changes in blood glucose levels

Question 2

set point of blood glucose concentration

Answer 2

5 mmol/L

Question 3

what region of the pancreas secretes hormones directly into the bloodstream?

Answer 3

small regions of endocrine tissue islets of Langerhans

Question 4

alpha cells

Answer 4

synthesise and secrete glucagon if blood glucose levels fall below set point.

Question 5

function of glucagon

Answer 5

stimulates breakdown of glycogen into glucose in liver cells and its release into the blood, increasing the concentration

Question 6

beta cells

Answer 6

synthesise insulin and secrete it when the blood glucose concentration rises above the set point

Question 7

function of insulin

Answer 7

stimulates uptake of glucose by various tissues, particularly skeletal muscle and liver, in which it also stimulates conversion of glucose to glycogen, reducing blood glucose concentration

Question 8

why must secretion of insulin be ongoing?

Answer 8

it is broken down by the cells it acts upon

Question 9

define diabetes

Answer 9

a condition where a person has consistently elevated blood glucose levels

Question 10

effects of continuously elevated glucose

Answer 10

• damages tissues, particularly their proteins
• impairs water reabsorption from urine while it is forming in the kidney, resulting in an increase in the volume of urine and body dehydration

Question 11

symptoms of diabetes

Answer 11

• urinate more frequently
• constantly thirsty
• feels tired
• cares sugary drinks

Question 12

type 1 diabetes (early onset diabetes)

Answer 12

• characterised by an inability to produce sufficient quantities of insulin
• autoimmune disease arising from the destruction of beta cells in the islets of Langerhans by the body’s own immune system

Question 13

type 2 diabetes (late onset diabetes)

Answer 13

• characterised by an inability to process or respond to insulin because of a deficiency of insulin receptors or glucose transporters on target cells

Question 14

main risk factors of type 2 diabetes

Answer 14

• sugary, fatty diets
• prolonged obesity due to habitual obesity and lack of exercise
• genetic factors that affect energy metabolism

Question 15

treatment of type 1 diabetes

Answer 15

• testing blood glucose concentration regularly and injecting insulin when it is too high or likely to become too high
• injections often done before a meal to prevent peak of blood glucose as the food is digested/absorbed

Question 16

treatment of type 2 diabetes

Answer 16

• adjusting diet to reduce peaks and troughs of blood glucose.
• small amounts of food eaten frequently rather than infrequent large meals
• foods with high sugar content avoided; starchy foods only allowed if low glycemic index (digested slowly); high-fibre foods included to slow digestion of other foods
• strenuous exercise and weight loss

Question 17

what is thyroxin secreted by

Answer 17

thyroid gland (in neck) §

Question 18

why is thyroxin unusual?

Answer 18

• chemical structure - contains four atoms of iodine
• almost all cells in body are targets

Question 19

what prevents synthesis of thyroxin?

Answer 19

prolonged deficiency of iodine in the diet

Question 20

function of thyroxin

Answer 20

• regulates body’s metabolic rate, so all cells need to respond
• main targets are most metabolically active such as liver, muscle and brain
• control of body temperature

Question 21

higher metabolic rate ->

Answer 21

more protein synthesis and growth and increases the generation of body heat

Question 22

in a person with normal physiology, cooling triggers…

Answer 22

increased thyroxin secretion by the thyroid gland, which stimulates heat production so body temperature rises

Question 23

effects of hypothyroidism

Answer 23

thyroxin deficiency:
- lack of energy/persistent tiredness
- forgetfulness and depression
- weight gain
- persistent feeling cold
- constipation
- impaired brain development

Question 24

explain weight gain despite of loss of appetite in hypothyroidism

Answer 24

less glucose and fat are being broken down to release energy by cell respiration

Question 25

explain constipation in hypothyroidism

Answer 25

contractions of muscle in the wall of the gut slow down

Question 26

define leptin

Answer 26

a protein hormone secreted by adipose cells (fat storage cells)

Question 27

what controls the concentration of leptin in the blood?

Answer 27

food intake and amount of adipose tissue in the body

Question 28

target of leptin

Answer 28

group of cells in the hypothalamus of the brain that contribute to the control of appetite - leptin binds to receptors in the membrane of these cells.

Question 29

if adipose tissue increases,

Answer 29

blood leptin concentrations rise, causing long-term appetite inhibition and reduced food intake

Question 30

describe experiments done on obese mice

Answer 30

• they had two copies of recessive allele, ob, causing their adipose cells to be unable to produce leptin
• feed ravenously, become inactive and gain body weight, mainly through increased adipose tissue
• when these mice were injected with leptin their appetite declined, energy expenditure increased, and body mass dropped

Question 31

why did leptin injections not work as a weight loss method?

Answer 31

• in contrast to ob/ob mice, most obese humans have exceptionally high blood leptin concentrations
• target cells in hypothalamus have become resistant to leptin so fail to respond to it, even at high concentrations
• appetite not inhibited and food intake is excessive
• more adipose tissue develops, causing a rise in blood leptin concentration but leptin resistance prevents inhibition of appetite

Question 32

a very small proportion of cases of obesity in humans are due to

Answer 32

mutations in the genes for leptin synthesis or its various receptors on target cells

Question 33

trials in people with such obesity have shown

Answer 33

significant weight loss while the leptin injections are continuing; however, leptin is a short lived protein and has to be injected several times a day. also affects the development and functioning of the reproductive system, so is not suitable to children and YAs

Question 34

circadian rhythms

Answer 34

humans are adapted to live in a 24-hour cycle and have rhythms in behaviour that fit this cycle

Question 35

what do circadian rhythms depend on?

Answer 35

two groups of cells in the hypothalamus - suprachiasmatic nuclei (SCN).

Question 36

function of SCN

Answer 36

control secretion of melatonin (hormone) by pineal gland.

Question 37

describe melatonin secretion

Answer 37

increases in the evening and drops to a low level at dawn

Question 38

why do blood concentrations of melatonin rise and fall rapidly in response to changes in secretion?

Answer 38

the hormone is rapidly removed from the blood by the liver

Question 39

state three effects of melatonin

Answer 39

• the sleep-wake cycle: high levels of melatonin cause drowsiness and promote sleep through the night. falling levels encourage waking at the end of the night
• night-time drop in core body temperature
• decreased urine production at night: melatonin receptors have been discovered in the kidney

Question 40

describe how melatonin secretion is regulated

Answer 40

a special type of ganglion cell in the retina of the eye detects light of wavelength 460-480nm and passes impulses to cells in the SCN. This indicates to the SCN the timing of dusk and dawn and allows it to adjust melatonin secretion so that it corresponds to the day-night cycle.

Question 41

how does jet lag come about?

Answer 41

the SCN and pineal gland are continuing to set a circadian rhythm to suit the timing of day and night at the point of departure rather than destination.

Question 42

initially, the development of the embryo is

Answer 42

the same in all embryos and embryonic gonads develop that could either become ovaries or testes

Question 43

what does the developmental pathway of the embryonic gonads and thereby the whole baby depend on?

Answer 43

the presence or absence of one gene

Question 44

if the gene SRY is present

Answer 44

the embryonic gonads develop into testes.

Question 45

what does SRY do?

Answer 45

it codes for a DNA binding protein called TDF (testis determining factor(, which stimulates the expression of other genes that cause testis development

Question 46

where is SRY located?

Answer 46

on the Y chromosome

Question 47

when would embryonic gonads develop as ovaries?

Answer 47

when embryos have 2 X chromosomes and so do not have a copy of the SRY gene. TDF is not produced and the embryonic gonads develop as ovaries

Question 48

when do the testes develop from the embryonic gonads?

Answer 48

in about the eighth week of pregnancy

Question 49

the testes develop 1, 2, 3, at an early stage and these produce 4 which causes male genitalia to develop

Answer 49

testosterone-secreting cells
testosterone

Question 50

what happens at puberty in males?

Answer 50

the secretion of testosterone increases

Question 51

effects of increased testosterone secretion

Answer 51

• sperm production in the testes (primary sexual characteristic of males)
• secondary sexual characteristics: enlargement of the penis, growth of pubic hair, deepening of voice due to growth of the larynx

Question 52

describe female hormone secretion

Answer 52

• estrogen and progesterone are always present in pregnancy
• at first they are secreted by the mother’s ovaries and later by the placenta
• in the absence of fetal testosterone and the presence of maternal oestrogen and progesterone, female reproductive organs develop

Question 53

effects of increased oestrogen and progesterone secretion during puberty

Answer 53

• female secondary secondary sexual characteristics: enlargement of the breasts, growth of pubic and underarm hair

Question 54

draw a labelled diagram of the female and male reproductive systems

Question 55

testis

Answer 55

produce sperm and testosterone

Question 56

scrotum

Answer 56

hold testes at lower than core body temperature

Question 57

epididymis

Answer 57

store sperm until ejaculation

Question 58

seminal vesicle and prostate gland

Answer 58

secrete fluid containing alkali, proteins and fructose that is added to sperm to make semen

Question 59

urethra

Answer 59

transfer seen during ejaculation and urine during urination

Question 60

penis

Answer 60

penetrates the vagina for ejaculation of semen near the cervix

Question 61

ovary

Answer 61

produce eggs, oestrogen, and progesterone

Question 62

oviduct

Answer 62

collect eggs at ovulation, provide a site for fertilisation then move the embryo to the uterus

Question 63

uterus

Answer 63

provide the needs of the embryo and then foetus during pregnancy

Question 64

cervix

Answer 64

protect the foetus during pregnancy and then dilate to provide a birth canal

Question 65

vagina

Answer 65

stimulate the penis to cause ejaculation and provide a birth canal

Question 66

vulva

Answer 66

protect internal parts of the female reproductive system

Question 67

what is the menstrual cycle controlled by?

Answer 67

negative and positive feedback mechanisms involving ovarian and pituitary hormones

Question 68

state the two phases of the menstrual cycle

Answer 68

follicular phase
luteal phase

Question 69

follicular phase

Answer 69

• a group of follicles is developing in the ovary
• in each follicle an egg is stimulated to grow
• at the same time the lining of the uterus (endometrium) is repaired and starts to thicken
• the most developed follicle breaks open, releasing its eggs into the oviduct
• the other follicles degenerate

Question 70

luteal phase

Answer 70

• the wall of the follicle that released an egg becomes the corpus luteum
• continued development of the endometrium prepares it for the implantation of an embryo
• if fertilisation does not occur the corpus lute in the ovary breaks down
• the thickening of the endometrium in the uterus also breaks down and is shed during menstruation

Question 71

FSH and LH

Answer 71

protein hormones produced by the pituitary gland that bind to FSH and LH receptors in the membranes of follicle cells

Question 72

estrogen and progesterone

Answer 72

ovarian hormones produced by the wall of the follicle and corpus lute. they are absorbed by many cells in the female body, where they influence gene expression and therefore development

Question 73

FSH function

Answer 73

rises to a peak towards the end of the menstrual cycle
- stimulates the development of follicles, each containing an oocyte and follicular fluid
- stimulates the secretion of oestrogen by the follicle wall

Question 74

Estrogen function

Answer 74

rises to a peak towards the end of the follicular phase
- stimulates repair and thickening of the endometrium after menstruation and an increase in FSH receptors that make the follicles more receptive to FSH, boosting oestrogen production (positive feedback)
- at high levels, oestrogen inhibits FSH secretion (negative feedback) and stimulates LH secretion

Question 75

LH function

Answer 75

rises to a sudden and sharp peak towards the end of the follicular phase
- stimulates the completion of meiosis in the oocyte and partial digestion of the follicle wall allowing it to burst open at ovulation
- LH promotes development of wall of follicle after ovulation into corpus luteum, which secretes oestrogen (positive feedback) and progesterone

Question 76

progesterone function

Answer 76

rise at the start of the luteal phase, reach a peak and then drop back to a low level by the end of this phase
- promotes thickening and maintenance of endometrium
- inhibits FSH and LH secretion by pituitary gland

Question 77

draw a diagram showing the various stages of the menstrual cycle and hormones

Answer 77

p337

Question 78

describe ivf

Answer 78

1. down-regulation: woman takes a drug each day (usually nasal spray) to stop her pituitary gland secreting FSH or LH. secretion of oestrogen and progesterone therefore also stops. menstrual cycle suspended and doctors can control timing and amount of egg production in woman’s ovaries
2. superovulation- intramuscular injections of FSH and LH given daily for ~10 days, to stimulate follicles to develop. FSH injections are of higher concentration than usual so far more follicles develop than usual.
3. injection of HCG- stimulates follicles to mature
4. micropipette mounted on an ultrasound scanner is passed through uterus wall to wash eggs out of the follicles
5. each egg is mixed with 50-100,000 sperm cells in sterile conditions in a shallow dish, which is then incubated at 37’C until the next day
6. if fertilisation occurs then one or more embryos are placed in the uterus when they are ~48 hours old
7. extra progesterone usually given as a tablet placed inside vagina, to ensure uterus lining is maintained