Week 3

Question 1

Anatomy of parathyroids

Answer 1

The parathyroids consist of 4
glands located adjacent to the
thyroid gland
Each gland weighs
approximately 40 mg
The two superior glands are
usually found near the
posterior aspect of the capsule
The inferior glands are most
often located near the inferior
thyroid margin

Question 2

Parathyroid
hormone
(PTH)

Answer 2

PTH gene is in chromosome 11

PTH is synthesized as a 110 amino acid polypeptide called pre-pro-PTH

It is cleaved to pro-PTH (90 amino acids) and then PTH (84 amino acids)

PTH is the major storage, secreted and biologically active form of the hormone. Ca regulates synthesis, release and degradation of PTH

Question 3

Most important endocrine regulator of calcium and phosphorus

Answer 3

Parathyroid hormone is the
most important endocrine
regulator of calcium and
phosphorus concentration in
extracellular fluid.
is secreted from cells of the
parathyroid glands and finds its
major target cells in bone and
kidney.
primary hormone that is stored,
secreted and functions in the
body.

Question 4

PTH receptors

Answer 4

Type 1 parathyroid
hormone receptor:
Binds both parathyroid
hormone and amino-
terminal peptides of PTHrP.

Type 2 parathyroid
hormone receptor:
Binds parathyroid hormone
but shows very low affinity
for PTHrP.

Question 5

Function of PTH receptor 1

Answer 5

The PTH1R also mediates the
paracrine actions of PTHrP,
which play a particularly vital
role in the process of
endochondral bone formation.
These important functions, the
likely involvement of the
PTH1R in certain genetic
diseases affecting skeletal
development and calcium
homeostasis,

Question 6

Function of PTH receptor 2

Answer 6

The PTH2R suggest
involvement in regulation of
fear, anxiety, reproductive
behaviours.

Question 7

PTH Function-recap

Answer 7

Directly involved in the bones,
kidneys, and the small
intestine

Effects of PTH in the Bones
-Stimulates the release of calcium in an indirect process through osteoclasts which ultimately lead to resorption of the bones

Effects of PTH on the Kidneys
-Targets the distal convoluted
tubule and collecting duct,
directly increasing calcium
reabsorption.
-Parathyroid hormone decreases
phosphate reabsorption at the
proximal convoluted tubule

Activates vitamin D
•Plays a role in calcium
reabsorption in the distal
convoluted tubule via
calbindin-D, a cytosolic
vitamin D dependent calcium
binding protein. In the small
intestine, vitamin D allows
the absorption of calcium

Question 8

Calcium sensing receptors

Answer 8

The CaSR allows regulation of parathyroid hormone (PTH) secretion and renal tubular calcium re-absorption in response to alterations in extracellular calcium concentrations.

Question 9

CaSR and CAMP

Answer 9

Activation of phospholipase C :
Leads to generation of the second
messenger’s diacylglycerol and
inositol trisphosphate.
Inhibition of adenylate cyclase:- which
suppresses intracellular concentration
of cyclic AMP.

Question 10

PTH and calcitriol function

Answer 10

PTH and calcitriol are the major hormones modulating calcium and phosphate homeostasis

Question 11

Parathyroid hormone (PTH) Regulation

Answer 11

When blood calcium is high the Thyroid gland releases Calcitonin to drop the calcium blood levels

When blood calcium is low the Parathyroid gland releases PTH to increase the calcium blood levels

Question 12

RANKL and IL expression

Answer 12

Bone metabolism is a dynamic process
that balances bone formation and bone
resorption

Central to this process is
the RANK/RANKL/OPG pathway

Bone formation
Performed by stimulating
osteoblasts and inhibiting
osteoclasts

Bone resorption
-Performed by active osteoclast
Stimulated by RANKL in
normal process
Stimulated by PTH in
pathologic
process (metastatic disease)

Interleukin 1 (IL-1)stimulates
osteoclast differentiation and
thus bone resorption

Question 13

Three types of hyperparathyroidism + signs

Answer 13

A clinical syndrome causing
signs and symptoms that result
from ↑ PTH, PTH induced bone
resorption and hypercalcemia

• Primary
• Secondary
• Tertiary

Question 14

Primary Hyperparathyroidism

Answer 14

Generalized disorder resulting
from excessive secretion of
parathyroid hormone (PTH) by
one or more parathyroid glands.
It probably is the most common
cause of hypercalcemia

Question 15

Epidemiology Primary Hyperparathyroidism

Answer 15

Overall incidence is
42 in 100,000

Incidence increases
with age

Prevalence is 1:1000

Female to male ratio
is 2-3:1

Question 16

Pathogenesis Primary Hyperparathyroidism

Answer 16

Overproduction of PTH by parathyroid chief cells

Effect of PTH on bone → increased bone resorption → ↑
release of calcium phosphate → ↑ calcium levels
Induces RANKL expression in osteoblasts → binding
of RANKL to RANK on osteoclasts → activation of
osteoclasts
Induces IL-1 expression in osteoblasts → activation
of osteoclasts

Effect of PTH on the kidneys → ↑ phosphate
excretion (phosphaturia)

Question 17

Secondary hyperparathyroidism

Answer 17

Occurs most commonly in advanced
chronic kidney disease when decreased formation of
active vitamin D in the kidneys and other factors lead
to hypocalcemia and chronic stimulation of PTH
secretion.

Question 18

Secondary hyperparathyroidism Pathogenesis

Answer 18

↓calcium and/or ↑ phosphate blood levels leads
to → reactive hyperplasia of the parathyroid glands → ↑ PTH
secretion
Chronic kidney disease → impaired renal phosphate excretion
→ ↑ phosphate blood levels→ ↑ PTH secretion
In addition, CKD → ↓ biosynthesis of active vitamin D → ↓
intestinal calcium resorption + ↓
renal calcium reabsorption → hypocalcemia → ↑ PTH secretion

Question 19

Tertiary Hyperparathyroidism Pathogenesis

Answer 19

Chronic renal disease → refractory and
autonomous secretion of PTH → hypercalcemia
Renal disease → secondary or
tertiary hyperparathyroidism →
renal osteodystrophy → bone lesions
Familial hypocalciuric hypercalcemia benign
condition that causes chronically elevated
serum calcium and reduced calcium excretion.

Question 20

Hypoparathyroidism 3 types

Answer 20

Deficient parathyroid hormone
secretion
Inability to Make Active Parathyroid
Hormone.
Resistance to Parathyroid Hormone
(pseudo-hypoparathyroidism).

Question 21

Deficient Parathyroid Hormone Secretion

Answer 21

Lack of PTH leads to decreased
blood levels of calcium
(hypocalcemia) and increased
levels of blood phosphorus
(hyperphosphatemia).
There are no symptoms of too
little parathyroid hormone other
than the symptoms due to
having a blood calcium that is
too low.

Question 22

Inability to Make Active Parathyroid Hormone.

Answer 22

Deficient PTH secretion without
a defined cause (e.g. surgical
injury) is termed Idiopathic
hypoparathyroidism.

This disease is rare and can be
congenital or acquired later in
life.
Congenital: Patients in this
category are born without
parathyroid tissues.
Acquired: Arises because the
immune system has
developed antibodies against
parathyroid tissues

Question 23

Resistance to Parathyroid Hormone (pseudo-hypoparathyroidism)

Answer 23

Characterised by hypocalcemia
(too low blood calcium levels)
and hyperphosphatemia (too
high blood phosphorus levels)
But they are distinguished by
the fact that they DO produce
NORMAL parathyroid hormone.
The problem is that their bones
and kidneys do not respond to
the parathyroid hormone