| Indication |
For the treatment of mild to moderate essential hypertension. |
| Pharmacodynamics |
Felodipine belongs to the dihydropyridine (DHP) class of calcium
channel blockers (CCBs), the most widely used class of CCBs. There are
at least five different types of calcium channels in Homo sapiens: L-,
N-, P/Q-, R- and T-type. It was widely accepted that CCBs target L-type
calcium channels, the major channel in muscle cells that mediates
contraction; however, some studies have shown that felodipine also binds
to and inhibits T-type calcium channels. T-type calcium channels are
most commonly found on neurons, cells with pacemaker activity and on
osteocytes. The pharmacologic significance of T-type calcium channel
blockade is unknown. Felodipine also binds to calmodulin and inhibits
calmodulin-dependent calcium release from the sarcoplasmic reticulum.
The effect of this interaction appears to be minor. Another study
demonstrated that felodipine attenuates the activity of
calmodulin-dependent cyclic nucleotide phosphodiesterase (CaMPDE) by
binding to the PDE-1B1 and PDE-1A2 enzyme subunits. CaMPDE is one of the
key enzymes involved in cyclic nucleotides and calcium second messenger
systems. Felodipine also acts as an antagonist to the mineralcorticoid
receptor by competing with aldosterone for binding and blocking
aldosterone-induced coactivator recruitment of the mineralcorticoid
receptor. Felodipine is able to bind to skeletal and cardiac muscle
isoforms of troponin C, one of the key regulatory proteins in muscle
contraction. Though felodipine exhibits binding to many endogenous
molecules, its vasodilatory effects are still thought to be brought
about primarily through inhibition of voltage-gated L-type calcium
channels. Similar to other DHP CCBs, felodipine binds directly to
inactive calcium channels stabilizing their inactive conformation. Since
arterial smooth muscle depolarizations are longer in duration than
cardiac muscle depolarizations, inactive channels are more prevalent in
smooth muscle cells. Alternative splicing of the alpha-1 subunit of the
channel gives felodipine additional arterial selectivity. At therapeutic
sub-toxic concentrations, felodipine has little effect on cardiac
myocytes and conduction cells. |
| Mechanism of action |
Felodipine decreases arterial smooth muscle contractility and
subsequent vasoconstriction by inhibiting the influx of calcium ions
through voltage-gated L-type calcium channels. It reversibly competes
against nitrendipine and other DHP CCBs for DHP binding sites in
vascular smooth muscle and cultured rabbit atrial cells. Calcium ions
entering the cell through these channels bind to calmodulin.
Calcium-bound calmodulin then binds to and activates myosin light chain
kinase (MLCK). Activated MLCK catalyzes the phosphorylation of the
regulatory light chain subunit of myosin, a key step in muscle
contraction. Signal amplification is achieved by calcium-induced calcium
release from the sarcoplasmic reticulum through ryanodine receptors.
Inhibition of the initial influx of calcium decreases the contractile
activity of arterial smooth muscle cells and results in vasodilation.
The vasodilatory effects of felodipine result in an overall decrease in
blood pressure. Felodipine may be used to treat mild to moderate
essential hypertension. |
| Absorption |
Is completely absorbed from the gastrointestinal tract; however,
extensive first-pass metabolism through the portal circulation results
in a low systemic availability of 15%. Bioavailability is unaffected by
food. |
| Volume of distribution |
|
| Protein binding |
99%, primarily to the albumin fraction. |
| Metabolism |
Hepatic metabolism primarily via cytochrome P450 3A4. Six
metabolites with no appreciable vasodilatory effects have been
identified. |
| Route of elimination |
Although higher concentrations of the metabolites are present in
the plasma due to decreased urinary excretion, these are inactive.
Animal studies have demonstrated that felodipine crosses the blood-brain
barrier and the placenta. |
| Half life |
17.5-31.5 hours in hypertensive patients; 19.1-35.9 hours in elderly hypertensive patients; 8.5-19.7 in healthy volunteers. |
| Clearance |
- 0.8 L/min [Young healthy subjects]
|
| Toxicity |
Symptoms of overdose include excessive peripheral vasodilation with marked hypotension and possibly bradycardia. Oral rat LD50 is 1050 mg/kg.
|
