Module 5- growth & lactation

Question 1

where are hypothalamic factors released

Answer 1

stalk of anterior pituitary

Question 2

what does GnRH stimulate

Answer 2

stimulates GH secretion

Question 3

somatostatin

Answer 3

inhibits GH secretion

Question 4

grehlin

Answer 4

regulator of GH secretion, secreted in response to empty stomach

Question 5

T or F: stomach is an endocrine gland

Answer 5

T

Question 6

where are receptors of GH found

Answer 6

pituitary gland

Question 7

transcription vs translation

Answer 7

scription-DNA -> RNA
lation-RNA -> protein

Question 8

T or F: GnRH stimulates transcription & translation

Answer 8

T

Question 9

how is GH released? why?

Answer 9

GH is produced in cells in anterior pituitary & stored in vesicles
- vesicles allow a burst of hormone rather than taking a long time to make new

Question 10

T or F: somatostatin can be found in GI tract & other tissues as well as endocrine

Answer 10

T

Question 11

how many forms of somatostatin are there?

Answer 11

2

Question 12

BST

Answer 12

bovine somatotropin- used to improve milk production in E.coli

Question 13

where are GH receptors located (5)

Answer 13

liver, adipose, bone, muscle & gonads

Question 14

T or F: GH receptors in mammary epithelium

Answer 14

F

Question 15

T or F: GH is pulsatile

Answer 15

T

Question 16

why can you not take a single of GH & tell what the cows status is

Answer 16

b/c GH is pulsatile so it fluctuates so much and is not coordinated

Question 17

where is grehlin made

Answer 17

stomach lining

Question 18

where are ghrelin receptors located

Answer 18

hypothalamus

Question 19

what stimulates IGF-1?

Answer 19

GH

Question 20

how is IGF-1 produced/stored?

Answer 20

no vesicles, it is released slowly in several hours

Question 21

what is the major source of IGF-1?

Answer 21

liver

Question 22

anabolic vs mitogenic

Answer 22

a-synthesize proteins
m-cell perforation

Question 23

IGF-1 plays role in ( ) growth while IGF-2 plays role in ( ) growth

Answer 23

pre/post natal, utero/post natal

Question 24

IGF-1 has ( )% amino acid identity with insulin

Answer 24

50%

Question 25

what are the 3 main tissues that express IGF-1

Answer 25

liver, uterus & ovary

Question 26

why are IGF binding proteins used?

Answer 26

b/c we do not use vesicles

Question 27

what is most abundant binding protein in blood? function?

Answer 27

IGFBP-3, protects IGF from degradation

Question 28

what are the 2 main binding proteins secreted from liver? function?

Answer 28

IGFBP 1 & 2, reduce tissue availability of IGFs

Question 29

direct vs indirect effects of GH

Answer 29

direct-act directly on receptors
indirect-things that IGF-1 does that stimulates GH

Question 30

anti-lipogenic

Answer 30

stops making new fat & encourages breakdown of fat, GH inhibits insulin

Question 31

lipolytic

Answer 31

breaks down fat, stimulates lipolysis = stimulates effect of epinephrine = releases energy from adipose tissue

Question 32

what does GH need to stimulate more release when in a negative energy balance for anabolic/mitogenic functions of IGF-1

Answer 32

epinephrine

Question 33

GH makes epinephrine ( ) potent

Answer 33

potent

Question 34

insulin is ( ) potent in stimulating glucose uptake

Answer 34

less

Question 35

GH secretion ( ) with grehlin

Answer 35

increases

Question 36

low nutrition does what do IFG-1

Answer 36

liver makes less IGF-1 = less negative feedback to pituitary = stimulation of more GH

Question 37

what 5 things occur in GH/IGF-1 levels during low nutrition?

Answer 37

1) increased GH from more grehlin
2) reduced number of GH receptors on liver b/c of lower protein synthesis
3) reduced IGF-1 secretion b/c of less receptors
4) increased IGFBP 1 & 2 and increased IGFBP-3
5) stimulates release of energy from adipose tissue for energy needs

Question 38

example of direct & indirect effects of malnutrition on GH/IGF-1

Answer 38

direct: lipolytic, antagonizing insulin

indirect: reduced IGF-1

Question 39

why are males larger than females

Answer 39

testosterone is more potent than estrogen in IGF-1 = increases GH pulsatility = more GH activity

Question 40

effects of stress on IGF-1

Answer 40

increased cortisol = decrease in liver GH receptors = growth is reduced = lower effectiveness of IGF-1

Question 41

effects of illness on IGF-1

Answer 41

cytokine hormone stimulates immune response when sick = directly reduces amount of liver production of IGF-1 = no appetite

Question 42

nutrition & steroid effects on IGF-1

Answer 42

estradiol is more capable of stimulating IGF-1 in well fed animals

Question 43

why does IGF-1 peak in high nutrition not low nutrition animals

Answer 43

b/c low nutrition directly inhibits the production of IGF-1 because of the lack of GH receptors on liver in low nutrition states

Question 44

T or F: IGF-1 has no stimulating effects on animals with lack of management & feeding levels & stress

Answer 44

T

Question 45

steroid impacts for cattle effects on GH

Answer 45

increases GH receptors on liver = increases GH pulsability

• does not work in monogastrics

Question 46

why do plasma IGF-1 levels drop at day 21 & day 60 in pigs?

Answer 46

1) weaning is at 21 days = stress = cortisol increases = blocks GH receptors in liver = decline in IGF-1
2) change in environment = not eating = reduced nutrition = reduced IGF-1
3) exposure to pathogens= fighting change in gut microbiome b/c no milk anymore = cereal grains are different substrate for bacteria = immunosuppression = reduced appetite = loss of GH receptors on liver = drop in IGF-1
4) day 60: nursery -> grower barn = change in diet & environment = drop in IGF-1

Question 47

why peak in GH at day 24?

Answer 47

1) low IGF-1 levels = reduced negative feedback = more GH
2) stomach is empty = makes ghrelin hormone = stimulates GH secretion
3) GH increases to make energy to support/maintain body function when they are not consuming feed

Question 48

leptin

Answer 48

hormone that suppresses appetite by acting on hypothalamus & limits desire to eat

Question 49

4 leptin functions

Answer 49

1) suppresses appetite
2) increases energy use
3) permits LH surge
4) Increases immune cell activity

Question 50

what occurs with a mutation that no longer makes leptin

Answer 50

obese, hypoactive & low metabolic activity

Question 51

where is leptin secreted

Answer 51

adipocytes

Question 52

2 main drivers of leptin secretion

Answer 52

1) adiposity- increased with increased adipose size
2) energy balance- when no food = decreased leptin release

Question 53

T or F: leptin is 2x higher in females than males

Answer 53

T

Question 54

role of leptin cattle (2)

Answer 54

1) adds fat cover in finishing
2) as animals mature = reduce muscle growth & increasing fat growth

Question 55

T or F: as you add fat, your appetite decreases

Answer 55

T

Question 56

T or F: a reduction in appetite causes use of energy towards heat production but not for reproductive cycling

Answer 56

T

Question 57

cattle genotype for leptin

Answer 57

wildtype = T allele = codes for cysteine (normal)

C allele= codes for arginine = reduced function

Question 58

why does the T allele for leptin allow normal function?

Answer 58

b/c it codes for cysteine which has disulfide bonds to support protein binding

Question 59

T or F: reduced function leptin ( C allele) changes the easy ability for fat cover

Answer 59

T

Question 60

how is leptin managed?

Answer 60

genotypically- feeding & management are optimized to a particular genotype

Question 61

myostatin

Answer 61

paracrine (local) hormone that results in double muscling phenotype if absent

Question 62

what is the most common cattle breed for double muscling

Answer 62

belgian blue

Question 63

how many myostatin mutations have been identified

Answer 63

5

Question 64

what does double muscling mean

Answer 64

double the muscle fibers

Question 65

where do most of the myostatin effects occur? why is it hard to occur?

Answer 65

Utero, hard to control with use of drugs

Question 66

what test can be done for myostatin gene identification in humans

Answer 66

CRISPR

Question 67

lactation

Answer 67

production of milk by the mammary gland, characteristic of all mammals

Question 68

4 functions of lactation

Answer 68

1) provide milk
2) passive immunity of antibodies via colostrum
3) help gut development
4) promote beneficial intestinal bacteria

Question 69

what nutrient is found in milk that promotes the growth of beneficial bacteria

Answer 69

polysaccharides (carb)

Question 70

what is the mammary gland composed of

Answer 70

alveoli (spheres) that are made of a single layer of glandular cells

Question 71

glandular cell function

Answer 71

synthesize milk & secrete it into the lumen

Question 72

milk is an ( )

Answer 72

ultrafiltrate

Question 73

how many L of blood transfers through mammary gland to get 1 L of milk?

Answer 73

600L

Question 74

what are proteins, glucose & amino acids made into in milk

Answer 74

caseins / milk fats

Question 75

T or F: blood moves rapidly through the gland

Answer 75

T

Question 76

mammary vein

Answer 76

vein that passes along abdomen to gland that returns milk back to the circulatory system
- like a garden hose

Question 77

each alveolus is surrounded by

Answer 77

myoepithelial (muscle cells) - looks like a spider

Question 78

myoepithelial cell function

Answer 78

contract & force milk out of lumen of alveoli into a duct system

Question 79

alveoli are arranged in groups called

Answer 79

lobules that turn into lobes

Question 80

udder cistern

Answer 80

where milk is collected when it is forced into the duct system

Question 81

movement of milk

Answer 81

alveoli -> lumen -> duct system -> utter cistern -> teat cistern -> teat canal (where milk exits)

Question 82

where does milk exit out of

Answer 82

teat canal

Question 83

what causes myoepithelial cells to contract?

Answer 83

oxytocin

Question 84

where is oxytocin released from

Answer 84

posterior pituitary gland

Question 85

the bovine suspensory system

Answer 85

bovine udder is composed of 4 separate mammary glands

Question 86

suspensory ligaments

Answer 86

hold udder in place & supports the weight of the mammary gland

Question 87

what would occur without suspensory ligaments

Answer 87

udder drag low = more susceptible to mastitis or injury

Question 88

how much does the udder weigh

Answer 88

20 kg

Question 89

ampullae in mammary gland

Answer 89

provide limited milk storage, similar to udder cistern

Question 90

mammogenesis

Answer 90

mammary gland development

Question 91

lactogenesis

Answer 91

initiation of milk synthesis

Question 92

galactopoiesis

Answer 92

milk synthesis

Question 93

when does mammogenesis occur

Answer 93

adolescence in begging of reproductive cycling during 1st cyclw

Question 94

life cycle of dairy cow
0 days, 60-90 days, 305-320 days, 60 day

Answer 94

0=calving
60-90=re-breeding then lactation
305-320= drying off
60 day= dry period & breed again

Question 95

when is peak lactation

Answer 95

during 1st nine weeks

Question 96

how does drying off occur?

Answer 96

as lactation progresses, myoepithelial cells die = loss of milk synthesis capacity

Question 97

drying off

Answer 97

stopping production of milk, lasts 2 months

Question 98

T or F: female calf is born with rudimentary mammary system

Answer 98

T

Question 99

mammary system at birth

Answer 99

udder has teat & gland cisterns but duct system is not really developed

Question 100

mammary gland birth -> pre-pubertal period

Answer 100

mammary gland growth is isometric (grows at same time as rest of body), very little duct developement

Question 101

how can overfeeding impact mammary gland formation

Answer 101

increased deposition of fat in mammary gland = limits further development of duct system

Question 102

mammary gland at time of puberty

Answer 102

estrogen, progesterone & cortisol are released

Question 103

what does estrogen & progesterone do for mammary gland growth?

Answer 103

estrogen- growth of cistern in ducts
progesterone-growth of alveoli

Question 104

T or F: you cannot take a heifer that has not reached puberty & inject her with hormones to start producing milk

Answer 104

T

Question 105

mammary gland during pregnancy

Answer 105

duct system develops & alveoli develop towards end of pregnancy

Question 106

mammary gland around time of calving

Answer 106

1) surge of prolactin & decrease in progesterone
2) lactose synthesis

Question 107

what is milk volume driven by?

Answer 107

lactose

Question 108

how is lactose secreted

Answer 108

secreted into lumen & water follows by osmosis

Question 109

T or F: caseins/proteins do not follow lactose by osmosis

Answer 109

T

Question 110

what is lactose

Answer 110

small soluble sugar

Question 111

what does a surge in prolactin cause?

Answer 111

drives initiation of lactogenesis

Question 112

what hormone is high during pregnancy

Answer 112

progesterone

Question 113

what is galactopoiesis driven by in cattle vs other spcies

Answer 113

cattle- GH
other- prolactin

Question 114

what are the 3 most important hormones for milk synthesis

Answer 114

1) prolactin
2) GH
3) IGF-1

Question 115

T or F: prolactin is higher during longer photoperiods

Answer 115

T

Question 116

sow milk production increases with

Answer 116

litter size

more suckling = more prolactin = drives milk synthesis

Question 117

peak milk yield

Answer 117

4-8 weeks then slowly declines

Question 118

lactation curve

Answer 118

increase number of secretory cells after parturition = increased activity

Question 119

what does decreased epithelial cell number mean

Answer 119

apoptosis

Question 120

what to select for if you want a higher persistance

Answer 120

reduced apoptosis

Question 121

milk let down is a ( ) reflec

Answer 121

neuro-hormonal

Question 122

milk let down reflex

Answer 122

suckling / massing udder stimulates nerves in tit to send signal to posterior pit for oxytocin release = myoepithelial cells squeeze alveoli = forces milk out of duct system

Question 123

how long does it take before milk let down occurs

Answer 123

1 min

Question 124

when is peak of milk let down? how long does it last before all oxytocin is released?

Answer 124

peak is 2-3 min, lasts 6-8 mins before all oxytocin is released

Question 125

what can inhibit milk let down

Answer 125

stress = vasoconstriction = no oxytocin release

Question 126

fat in milk is 99% ( )

Answer 126

triglycerides

Question 127

homogenization

Answer 127

rapid mixing of milk to turn large globules (float) into small globules so they stay mixed to avoid separation of milk

Question 128

2 milk proteins

Answer 128

casein & whey

Question 129

the epithelial cell of mammary gland

Answer 129

secretory vesicle is full of milk fat = pushed through plasma membrane of cell = plasma membrane forms surface of fat globule

Question 130

how is fat in milk stored

Answer 130

in a globule that is surrounded by plasma membrane

Question 131

what 2 components of milk are released into the lumen

Answer 131

lactose & proteins

Question 132

what are solids in milk

Answer 132

what comes out at the bottom (protein & fat) when you spin milk rapidly in centrifuge

Question 133

what type of milk is produced if there is less lactose

Answer 133

more concentrated b/c less lactose = draws less water into milk protein via osmosis

Question 134

T or F: lactoferrin has health benefit

Answer 134

T

Question 135

how are immunoglobins transported

Answer 135

taken from blood & moved into lumen across the epithelium

Question 136

what is the primary source of immunoglobin for neonate

Answer 136

colostrum

Question 137

4 factors affecting milk fat composition

Answer 137

1) milk fat %
2) milk fat composition
3) milk protein %
4) colostrum vs mature milk

Question 138

colostrum has ( )x protein & ()x fat as mature milk

Answer 138

40x, 1.5x

Question 139

what occurs if you freeze colostrum

Answer 139

freeze immune cells but can still have a healthy calf

Question 140

what type of immunoglobin is colostrum mainly?

Answer 140

IgG

Question 141

is IgA absorbed? why or why not?

Answer 141

not typically b/c it s very resistant to degradation in gut- present in mature milk

Question 142

how does IgA work?

Answer 142

has 4 binding sites which are capable of joining pathogens together to inhibit their movement towards epithelium & supporting their removal via peristalsis

Question 143

lactoferrin

Answer 143

binds iron to make it more available for neonate

Question 144

why is iron given as an injection, not oral in neonates?

Answer 144

it can overwhelm lactoferrin & cause E.coli scours

Question 145

what is the most limiting nutrient for bacteria/pathogens

Answer 145

iron

Question 146

bacterostatic vs bacterocidal

Answer 146

static-prevents growth
cidal-kills

Question 147

oligosacchardies

Answer 147

short complex sugar, is preferred nutrient for beneficial bacteria

Question 148

how do beneficial bacteria take advantage of oligosaccharides

Answer 148

use it as a substrate

Question 149

de novo synthesis

Answer 149

make on own

Question 150

what type of synthesis does C4-C16 use

Answer 150

de novo

Question 151

how are short & long chain FA made

Answer 151

short-synthesized in mammary gland & secreted
long-taken from diet or adipose tissue

Question 152

ruminant vs monogastric milk composition

Answer 152

ruminant- higher in saturated fat
monogastric-reflects what the diet is - can be unsaturated or satured- no modulating effects

Question 153

northern seal milk composition

Answer 153

do not eat during lactation = all fats comes from adipose

Question 154

elephant milk synthesis

Answer 154

de novo synthesis

Question 155

how many times a day should a cow be milked to increase milk yield

Answer 155

3x

Question 156

4 effects of mastitis

Answer 156

1) infiltration of immune cells from blood into gland
2) destruction of alveoli
3) reduced milk production
4) negative economic impacts

Question 157

why does milk production decrease with mastitis

Answer 157

neutrophils squeeze between 2 cells to get into alveoli to clear infection, they damage the epithelial cells

Question 158

mastitis pathway

Answer 158

bacteria finds way through teats and duct system and then get into alveoli

Question 159

somatic cells

Answer 159

cells with full chromosome

Question 160

what does a high level of somatic cells in a dairy cow mean?

Answer 160

infection in the gland

Question 161

how long is milk production reduced with mastitis

Answer 161

until there is drying off & another round of parturition for mammary gland growth

Question 162

a somatic cell count <100,000 is (good/bad)

Answer 162

bad

Question 163

what is the largest economic loss from mastitis from

Answer 163

reduced production

Question 164

T or F: peak lactation is 6th lactation

Answer 164

T

Question 165

hormone levels in mammogenesis

Answer 165

decrease progesterone, increase estrogen & cortisol, no change in prolactin

Question 166

hormone levels in lactogenesis

Answer 166

peak production in estrogen, cortisol & prolactin, decrease progesterone

Question 167

hormone levels in galactopoiesis

Answer 167

decrease progesterone, estrogen, cortisol & prolactin