Calcium-Phosphate Metabolism and Derrangment

Question 1

About how much Ca2+ input is their per day?

• what are the main modes of output?

Answer 1

Input:
1000 mg

Output:
• Fecal Loss - 700 mg
• Renal Excretion - 300 mg

Question 2

What is the normal range for serum Calcium?

• ionized Ca2+ component?

Answer 2

Serum Calcium conc. = 8.7 to 10.2 mg/dL

Ionized calcium component = 4.8 to 5.2 mg/dL

Question 3

What is the distribution of most Ca2+ that is not sequested in the bone?
• what is the active component?

Answer 3

1% not sequestered in Bone

MOST = intracellular

Extracellular: 
• 45% protein Bound
• 55% non-protein bound
-------> 45% Free Ionized*****ACTIVE******
-------> 10% complexed

Question 4

How does calcium penetrate into an enterocyte from the GI tract?
•how does it exit the basolateral side?

Answer 4

• TRPV6 Channel used by Ca2+ from the brush border membrane along a the electrochrmical gradient.

Basolateral Side:
• Pumped OUT (uphill) by ATP powered Ca2+ pump (aka Ca2+ ATPase)

Question 5

Compare the way that calcium leaves the cell on the basolateral side in times of normal intracytoplasmic calcium levels vs. when intracytoplasmic Ca2+ is super elevated.

Answer 5

Normal Ca2+ exit through the Basolateral Side:
• ATP powered Ca2+ ATPase pump pushes Calcium out into the blood

Elevated intracytoplasmic Ca2+ levels:
• Leaves the cell using the Na+/Ca2+ exchanger

Question 6

What regulates the passive influx and efflux of Ca2+?

• what does this do?

Answer 6

• Passive Ca2+ influx and efflux are regulated by Calcitriol

* Calcitriol Binds the Vitamin D receptor

Question 7

What parts of the filtration apparatus in the kidney play an important role in fine tuning renal excretion of Ca2+?

Answer 7

Distal Convoluted Tubule (DCT) 
Connecting Tubule (CNT)

Question 8

What Ca2+ channels/transporters are present on the Apical and Basolateral Membrane of cells in the DCT and Connecting Tubule?

Answer 8

Apical Membrane:
• TRPV5 => Ca2+ channel

Basolateral:
• NCX1 - Na+/Ca2+ exchanger on the basolateral side of the cell

•PMCA1 - ATP driven Ca2+ transporter

Question 9

What role would increased activity of PTH-R and and NKA play in Ca2+ transport in the Kidney?

Answer 9

PTH-R:
• PTH stimulates the Receptor on the BASOLATERAL side of the DCT/CNT and stimulates activity of TRPV5.

NKA (sodium-potassium ATPase)
• Increased activity raises intracellular Na+ levels which means more Ca2+ export

Question 10

What does Klotho do?

Answer 10

1. Acts on the Basolateral membrane to upregulate NKA activity and thus NCX1 activity.
2. Acts on Apical Membrane to increase TPRV5 activity

Question 11

What role does BK2 play in Ca2+ import?

• which side of the cell is it found on?

Answer 11

BK2

• Stimulated by TK (Tissue Kallikrien) to activate TRPV5

Question 12

What are the steps in suppression of PTH?

Answer 12

HIGH CALCIUM in serum =>
1. CaSR (calcium-sensing receptor) = GPCR

2. Stimulation = release of Phospholipase C leading to increased IP3
3. this INHIBITS PTH synthesis and secretion

Question 13

What happens in the parathyroid cells when serum calcium is low?

Answer 13

LOW CALCIUM in serum =>
1. Inhibition of intracellular signaling

2. Increased PTH synthesis and secretion

Question 14

What is the distribution of phosphorus in the body?

Answer 14

Bone - 85%
Soft Tissue - 14%
Extracellular Fluid - 1%

Question 15

What are the main forms of Phosphorus in the plasma?

• ratio at physiological pH?

Answer 15

HPO4– and H2PO4- are present in a 4:1 ratio at pH 7.4

Question 16

What is the amount total phosphorus taken in per day?

• how much is absorbed at different levels of intake?

Answer 16

Phosphorus per day:
• 800 - 1500 mg

How much absorbed:
• at more than 10 mg/kg/day 70% absorbed
• at less than 10 mg/kg/day 80-90% absorbed

Important to recognize that we are good at reabsorbing phosphorus because we need it for everything*

Question 17

What are the normal serum levels of phosphorus?

Answer 17

2.5 to 4.5 mg/dL in people with a GFR greater than 25 mL/min

Question 18

How much of dietary phosphorus is typically elminated?

• when do you see hyperphosphatemia?

Answer 18

typically 5-15% is eliminated daily

Only time you see too much phosphate in serum is with severe renal insufficiency (GFR less than 25 mL/min

Question 19

What is the main method of phosphate loss (for someone with a daily intake of 1400mg)?
• in what ways is this different than Ca2+ elimination?

Answer 19

Renal Excretion - 900 mg
Fecal Excretion - 500 mg

Most Ca2+ is excreted in the Feces while most PO4 is excreted in the urine

Question 20

What is the difference in the S1, S2, S3 portions of the proximal convoluted tubule as far as Phosphate Transporters go?

Answer 20

S1/S2 - Apical:
• 3Na+/HPO4- co-transporter
• 2Na+/HPO4- co-transporter
• 2Na+/H2PO4- co-transporter

S3 - Apical:
• 3Na+/HPO4- co-transporter
• 2Na+/H2PO4 co-transporter

BOTH BASOLATERAL:
• H2PO4-/HPO4- (unknown) channel
• NKA = DRIVES THE Na+ gradient

Question 21

Where is most PO4 reabsorbed in the nephron?

Answer 21

Proximal Tubule = most common sight of reabsorption

Question 22

T or F: tubular reabsorption of phosphate is saturable

Answer 22

True, look at diagrams to see a graph of this

Question 23

How do we know that phosphate reabsorption is saturable?

Answer 23

• it is excreted LINEARLY with PLASMA concentration and depends on GFR

if we compare it to inulin it will have the same slope just shifted down to account for the set amount of reabsorption that’s occuring

Question 24

T or F: Vitamin D is an important hormone needed to regulate Ca2+ and Cl- homeostasis.

Answer 24

FALSE, Vitamin D is a PROHORMONE needed to regulate Ca2+ and PHOSPHORUS homeostasis

Question 25

What are the steps in the endogenous formation of Vitamin D3?

Answer 25

Cholesterol => 7-dehydrocholesterol + Sunlight/UVB => Vitamin D3

Question 26

What allows Vit. D3 to travel in the bloodstream?

• where is it delivered 1st?

Answer 26

Vit. D Binding Protein (VDBP) binds to Vit. D and carries Vit. D3 to the LIVER to be acted on by 25-hydroxylase

Question 27

What are the 4 main places 1,25-(OH)2D - Active Vit. D is delivered?

Answer 27

• Intestine
• PTH gland
• Osteoclast Precursors
• Kidney

Question 28

What receptors on kidney cells bind VDBP-25(OH)D?

Answer 28

• Cubulin

* Megalin

Question 29

What Happens when Vitamin D enters a target cell?

Answer 29

Transcriptional Effects:
• Binds VDR (vitamin D receptor and diffuses into nucleus)

• Binds VDR-1,25(OH)2D binds RXR on DNA and upregulates transcription of proteins

Conversion of Calcitriol:
• CYPs act on 1,25 (OH)D2 (calcitriol) to turn it into calcitriolic acid

Question 30

What are 3 factors that DOWN REGULATE PTH?

• how do they work?

Answer 30

1. Calcium => CaSR activation –> Ca2+ release from ER —> Less PTH secretion
2. Calcitriol - 1) preproPTH transcription inhibition via VDR 2) also upregulates CaSR to indirectly inhibit
3. FGF23 - Direct inhibition of PTH mRNA generation

Question 31

What are 3 factors that UP REGULATE PTH?

• Explain how they work

Answer 31

1. High Phosphorus => PTH mRNA stabilization –> increased PTH
2. Low Calcium 1) Direct DECREASE in CaSR activation 2) High Ca Calreticulin INHIBITS calcitriol
3. FGF23 - decrease Calcitriol Synthesis

Question 32

How is PTH stored?

• what is its half-life?

Answer 32

PTH is stored in granules inside the gland

• Half-life = 2-4 min

Question 33

What type of receptor is the PTH receptor?

• where is it expressed?

Answer 33

PTH Receptor = GPCR

Acts via cAMP => PKA => PKC => Increased Intracellular Ca

Where is it expressed?
• Lots of tissues express the receptor IMPORTANTLY the kidney does too

Question 34

What is the MOST IMPORTANT END ORGAN of PTH action?

• specific cells within this organ?

Answer 34

BONE!!!!

• Specifically OSTEOBLASTS

Question 35

T or F: PTH effects on bone differ depending on if PTH1R stimulation is chronic or pulsitile.

Answer 35

TRUE

Question 36

What allows FGF23 to circulate and act as an endocrine whereas other FGFs outside of its family cannot do this?
• what does FGF23 do - broadly?
• Chromosomal Location

Answer 36

• FGF 19, 21, 23 = Heparin Independent
• FGF23 = phosphate and Vit. D homeostasis

Chromosome:
• 12p13

Question 37

What is the primary area of expression for FGF23?

Answer 37

• PREDOMINANTLY OSTEOCYTES

* ventrolateral thalamic nucleus, central venous sinusoids and thymus

Question 38

What are the Two KEY functions of FGF23?

Answer 38

1. Phosphaturic

2. Suppressor of 1-alpha hydroxylase in the kidney

Question 39

What organ expresses the greatest amount of FGF23?

Answer 39

BONE - because osteocytes are the primary cell in this tissue

Question 40

What Co-Factor is important for the actions of FGF23?

• where is it expressed?

Answer 40

Klotho

• Highly expressed in the tissues targeted by FGF23 but NOT in other tissue

Question 41

What is Klotho?

Answer 41

• SIngle-pass TM protein necessary for FGF23 mediated receptor activation

Question 42

What is the action of FGF23 in the kidney?

Answer 42

• Reduced Renal Phosphate Reabsorption
• Reduced 1-alpha-hydroxylase activity
• Prevents soft tissue calcification
• Tumor calcinosis in some pts. with mutations

Question 43

How does FGF23 prevent renal phosphate reabsorption?

Answer 43

• Sodium Dependent Phosphate Reabsorption

Question 44

What role does paracellular transport play in the movement of calcium? when?
• where does this happen?

Answer 44

Paracellular Transport of Ca2+ becomes important when TRPV6 gets saturated in JEJUNUM after a high Calcium Meal.

Looks like this only happens in the GI tract

Question 45

What is calbindin?

Answer 45

Intracellular Transporter of Ca2+ inside of cells in the kidney (Distal Convoluted Tubule and Connecting Tubule)

Question 46

T or F: Despite gaining tons of calcium during childhood and adolescence, serum Ca2+ concentrations stay pretty much the same.

Answer 46

True, our bodies are good at regulating blood levels of Ca2+

Question 47

What is the only part of the nephron not involved in Ca2+ uptake?

Answer 47

Ascending Limbs of the LOH

Question 48

T or F: Vitamin D is a prohormone that needs to be activated.

Answer 48

True, Vitamin D itself is not active

Question 49

What is the STONGEST stimulator of PTH production?

Answer 49

LOW CALCIUM