Molecular mechanisms of labour

Question 1

What are the potential mechanisms of the onset of labour

Answer 1

Binary switch
Placental clock- CRH/ACTH/HPA axis
Fetal derived signal
Infection

Question 2

Describe the placental clock mechanism of labour

Answer 2

Increased placental corticotrophin releasing hormone towards term stimulates fetal pituitary to release ACTH
ACTH increases fetal adrenal DHEA
DHEA is major oestrogenic precursor
Oestrogens increase myometrial gap junctions which facilitate regular coordinated uterine contractions

Question 3

Why is the placental clock mechanism not the sole mechanism for labour

Answer 3

Anencephalic pregnancies are post term but deliver spontaneously
Lack part of the pathway for placental clock theory

Question 4

Describe the fetal derived signal mechanism for labour

Answer 4

ACTH may be related to fetal surfactant proteins
Increased surfactant secretion at term activates amniotic fluid derived macrophages
AF macrophages migrate to uterine wall and activate inflammatory gene expression

Question 5

What chemicals are required for onset of labour

Answer 5

Prostaglandins
Cytokines
Chemoattractant cytokines

Question 6

What happens in preparation for labour

Answer 6

Myocyte depolarisation
Elevation of intracellular Ca2+
Increased expression of gap junction proteins
Functional progesterone withdrawal

Question 7

What is functional progesterone withdrawal

Answer 7

there is no decline in plasma progesterone levels prior to parturition but progesterone receptor agonists induce termination
Something blocks progesterone at term
Possibly: different isoforms of receptor becoming dominant, estrogen activity becoming dominant, local metabolism to inactive form

Question 8

What are the 3 layers of smooth muscle in the uterus

Answer 8

Inner circular layer- underlies endometrium, junctional zone, responsive to oestrogen
Interlocking middle layer
Outer longitudinal layer

Question 9

Describe the spatial expression patterns of protein in the myometrium

Answer 9

Different levels of protein expression between each region
Possibly reflects function
Proteins include gap junction proteins, NFkB, RNA splicing proteins

Question 10

Describe myometrial quiescence

Answer 10

Balance between contraction and relaxation
Balance between proquiescent and contractile molecules
Not just absence of contraction

Question 11

What are the proquiescent molecules

Answer 11

Progesterone, Gas, CRH, cAMP, PKA, PKC, cGMP, NO

Question 12

What are the contractile molecules

Answer 12

Oestrogen, CRH, Gaq, oxytocin, PGE2, PGF2a, Ca2+, IP3

Question 13

Describe how signalling cascades influence myometrial contraction

Answer 13

L and T type Ca2+ channels
Agonists cause calcium spikes
Calcium modulated by calmodulin
Chain reaction resulting in activation of actomyosin ATPase
Causes myocyte contraction

Question 14

What are the 3 Ga subunits

Answer 14

Gas
Gai
Gaq

Question 15

Describe Gas signalling

Answer 15

Positive signalling
cAMP second messenger
B2 agonists eg. PGE2 act through EP2 receptor
Cause uterine relaxation and quiescence

Question 16

Describe Gai signalling

Answer 16

Negative signalling
Prevents cAMP production
Involves alpha andrenergic agonists eg. ergometrine
Opiod receptors
PGE2 acting via EP1 and EP3 receptors
Causes uterine contraction
Can be targeted by misoprostol

Question 17

Describe Gaq signalling

Answer 17

Positive signalling
IP3 + DAG second messengers
Oxytocin receptor
PGF2 acting via FP2a receptor
Causes uterine contraction
Targeted by carboprost

Question 18

What are the 3 signalling pathways involved in myometrial quiescence

Answer 18

Gas receptors increasing cAMP
Calcium regulated potassium channels causing myocyte hyperpolarisation
PKA phosphorylation of intracellular proteins activating acto-myosin ATPase

Question 19

What are B2 agonists

Answer 19

Eg. Ritodrine, salbutamol
Respond to adrenaline and noradrenaline
Increase cAMP, promote smooth muscle relaxation + quiescence
Promotes myocyte hyperpolarisation and open K+ channels
Tocolytic activity

Question 20

What is Gas

Answer 20

GTP-binding protein
Elevates cAMP and PKA activity
Present during pregnancy, downregulated during labour
Loss of Gas may cause contractions

Question 21

Describe how inflammation disturbs the Gas promoter

Answer 21

Normal: No TNF, limited amount of CBP, acetylated histones, open chromatin, expression of Gas
Inflammation: TNF, elevated HDAC1, reduced CBP, reduced histone acetylation, closed chromatin, gene repression

Question 22

What regulates inflammatory factors

Answer 22

NFkB

Question 23

How does TSA inhibit myometrial contraction

Answer 23

Inhibits HDACs
HDACs remove acetylation so close chromatin
TSA prevents Gas being turned off
High levels of TNF can overcome repression

Question 24

Describe canonical activation of NFkB

Answer 24

Involves TNFa, IL18, LPS
IkBa on NFkB targeted for degradation by 26s proteasome
NFkB binds promoter to increase IkBa expression

Question 25

Describe non-canonical activation of NFkB

Answer 25

Involves BAFF, CD40, LPS
P100 CTD degradation by 26s proteasome
Promotes unknown gene expression

Question 26

Describe hypoxic activation of NFkB

Answer 26

Promotes HIF expression

Question 27

What proinflammatory factors are associated with labour

Answer 27

COX2, IL1B, IL6, IL8, TNF

Regulated by NFkB

Question 28

Describe gene analysis experiment during inflammation

Answer 28

TNF stimulation- 13300 enriched regions, 46% intronic

Unstimulated- 11110 regions, 54% intronic

Question 29

What are the 3 stages of parturition

Answer 29

Cervical dilation/remodelling
Fetal expulsion (myometrial contraction)
Placental delivery

Question 30

What is involved in the transition from quiescence to contractile

Answer 30

Inflammation
Differential gene expression
Elevated Ca2+

Question 31

Describe the role of Ca2+ in contractility

Answer 31

Calcium regulated contraction pathways
Extracellular sources target voltage gated Ca2+ channels
Intracellular stores act on channels on sarcoplasmic reticulum

Question 32

What treatment for premature contractions targets Ca2+ channels

Answer 32

Nifedipine
Ca2+ channel blocker
Normally treatment for high blood pressure. Relaxes smooth muscle, increase luminal volume

Question 33

Describe the role of oxytocin in contractions

Answer 33

Increased receptor numbers at term in fundal myometrium
Cervical stimulation/ myometrial stretch increases oxytocin secretion from paraventricular nuclei of hypothalamus
Positive feedback mechanism = ferguson reflex

Question 34

What oxytocin analogue is used to induce labour

Answer 34

Syntocinon

Question 35

Describe an oxytocin receptor agonist

Answer 35

Atosiban
Can inhibit premature myometrial contractions
Specific to oxytocin receptors
Doesn’t revert to full quiescence

Question 36

What signals regulate myometrial quiescence

Answer 36

G-protein signalling particularly Gas
B2 adrenergic receptor activation facilitating K+ extrusion
Myocyte hyperpolarisation
Nitric oxide
hCG
PGER1 + PGER3