Nitrendipine

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Nitrendipine
Systematic (IUPAC) name
(RS)-ethyl methyl 2,6-dimethyl-4-(3-nitrophenyl)-1,4-dihydropyridine-3,5-dicarboxylate
Clinical data
AHFS/Drugs.com International Drug Names
MedlinePlus a600042
Legal status ?
Identifiers
CAS number 39562-70-4 YesY
ATC code C08CA08
PubChem CID 4507
IUPHAR ligand 2334
DrugBank DB01054
ChemSpider 4351 YesY
UNII 9B627AW319 YesY
KEGG D00629 YesY
ChEBI CHEBI:7582 N
ChEMBL CHEMBL475534 YesY
Chemical data
Formula C18H20N2O6 
Mol. mass 360.361 g/mol
 N (what is this?)  (verify)

Nitrendipine is a dihydropyridine calcium channel blocker. It is used in the treatment of primary (essential) hypertension to decrease blood pressure.

Molecular Problem

Hypertension is the chronic condition where the blood pressure is elevated beyond normal levels that vary among individuals. The elevated levels in blood pressure increases the systemic vascular pressure, which increases the workload of the heart. The mechanical stress on the heart initiates a protein cascade involving G-proteins, cyclic-AMP and PKA that result in activation of genes that produce more cardiac muscle cells.[1] The increased stress on the heart causes the heart to enlarge to accommodate the workload. However, the enlarged heart also needs structural support, which is why it produces scarring.[2] The enlargement of the heart can make it hard for some cells to get nutrients because they are too distant from the blood vessels. Also, scarring can interfere with the electrical signals that cause the heart to contract and it also limits the ability of the heart to contract and relax. In both cases there is an increase risk of heart failure.

Nature of the Treatment

Nitrendipine is given to hypertensive individuals in 20 mg oral tablets every day.[3] This amount is effective in reducing blood pressure by 15-20% within 1–2 hours of administration [3]. With long-term treatments, the dosage may rise to as much as 40 mg/day; in elderly individuals, a lower dosage of up to 5 mg/day may be equally effective (this reduction in drug amount is attributed to decreased liver function or “first pass” metabolism) [3]. Once digested, Nitrendipine is absorbed into the blood and binds to plasma proteins. The majority (98%) is bound to plasma proteins and 70-80% of its inactive polar metabolites are also bound to plasma proteins [3]. Following hepatic metabolism, 80% of the 20 mg dose can be recovered in the first 96 hours as inactive polar metabolites. The specific volume of distribution of the drug is 2-6 L/kg. In terms of drug half-life, Nitrendipine has a half-life of 12–24 hours [3]. The reported side effects include: headache, flushing, edema and palpitations. These side effects can all be attributed to the vasodilation effect of this drug [3].

Mechanism of Action

Once Nitrendipine is ingested, it is absorbed by the gut and metabolized by the liver before it goes into the systemic circulation and reaches the cells of the smooth muscles and cardiac muscle cells. It binds more effectively with L-type calcium channels in smooth muscle cells because of its lower resting membrane potential.[4] The Nitrendipine diffuses into the membrane and binds to its high affinity binding site on the inactivated L-type calcium channel that’s located in between each of the 4 intermembrane components of the α1 subunit [4]. The exact mechanism of action of Nitrendipine is unknown, but it is believed to have important tyrosine and threonine residues in its binding pocket and its binding interferes with the voltage sensor and gating mechanism of the channel [4]. Thought to have a domain-interface model of binding. In hypertension, the binding of Nitrendipine causes a decrease in the probability of open L-type calcium channels and reduces the influx of calcium. The reduced levels of calcium prevent smooth muscle contraction within these muscle cells. Prevention of muscle contraction enables smooth muscle dilation. Dilation of the vasculature reduces total peripheral resistance, which decreases the workload on the heart and prevents scarring of the heart or heart failure.

References

  1. Watson PA, 1996. Mechanical activation of signaling pathways in the cardiovascular system. Trends Cardiovasc Med. 6: 73-9
  2. Van Bilsen M and Chien KR. (1993) Growth and hypertrophy of the heart: towards an understanding of cardiac specific and inducible gene expression. Cardiovasc Res. 27:1140-9
  3. Asif A, Siddiqui A and Polsker GL. (2004) Fixed-Dose Combination Enalapril/Nitrendipine: A Review of its use in mild-to-moderate hypertension. Drugs. 64: 1135-48
  4. Peterson BZ, Tanada TN and Catterall WA. (1996) Molecular determinants of high affinity dihydropyridine binding in the L-type calcium channels. J. Biol. Chem. 271: 5293-6
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