Theophylline Information & Theophylline Links at HealthHaven.com

Theophylline
Systematic (IUPAC) name
	1,3-dimethyl-7H-purine-2,6-dione
Identifiers
CAS number	58-55-9
ATC code	R03DA04
PubChem	2153
DrugBank	APRD00082
ChemSpider	2068
Chemical data
Formula	C7H8N4O2
Mol. mass	180.164 g/mol
SMILES	eMolecules & PubChem
Pharmacokinetic data
Bioavailability	100%
Protein binding	40%, primarily to albumin
Metabolism	hepatic to 1-methyluric acid
Half life	5-8 hours
Excretion	?
Therapeutic considerations
Pregnancy cat.	A(AU) C(US)
Legal status	P(UK) ℞-only(US)
Routes	oral, IV
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Theophylline extended-release tablets in Japan

Theophylline, also known as dimethylxanthine, is a methylxanthine drug used in therapy for respiratory diseases such as COPD or asthma under a variety of brand names. Due to its numerous side-effects, these drugs are now rarely administered for clinical use. As a member of the xanthine family, it bears structural and pharmacological similarity to caffeine. It is naturally found in tea, although in trace quantities (~1 mg/L),^[1] significantly less than therapeutic doses.^[2]

The main actions of theophylline involve:

relaxing bronchial smooth muscle
increasing heart muscle contractility and efficiency: positive inotropic
increasing heart rate: positive chronotropic
increasing blood pressure
increasing renal blood flow
some anti-inflammatory effects
central nervous system stimulatory effect mainly on the medullary respiratory center.

[edit] History

Theophylline was first extracted from tea leaves and chemically identified around 1888 by the German biologist Albrecht Kossel.^[3]^[4] Just seven years after its discovery, a chemical synthesis starting with 1,3-dimethyluric acid was described by Emil Fischer and Lorenz Ach.^[5] The Traube synthesis, an alternative method to synthesize Theophylline has been introduced in 1900 by another German scientist, Wilhelm Traube.^[6] Theophylline's first clinical use came in 1902 as diuretic.^[7] It took additional 20 years until its first description in asthma treatment.^[8]

[edit] Pharmacokinetics

[edit] Absorption

Bioavailability is 100%. However, taking the drug late in the evening may slow the absorption process, without affecting the bioavailability. Taking the drug after a meal high in fat content will also slow down the absorption process, without affecting the bioavailability.^{[citation needed]}

[edit] Distribution

Theophylline is distributed in the extracellular fluid, in the placenta, in the mother's milk and in the central nervous system. The volume of distribution is 0.5 L/kg. The protein binding is 40%. The volume of distribution may increase in neonates and those suffering from cirrhosis or malnutrition, whereas the volume of distribution may decrease in those suffering from obesity.

[edit] Metabolism

Theophylline is metabolized extensively in the liver (up to 70%). It undergoes N-demethylation via cytochrome P450 1A2. It is metabolized by parallel first order and Michaelis-Menten pathways. Metabolism may become saturated (non-linear), even within the therapeutic range. Small dose increases may result in disproportionately large increases in serum concentration. Methylation in caffeine is also important in the infant population. Smokers and people with hepatic (liver) impairment metabolize it differently.

[edit] Elimination

Theophylline is excreted unchanged in the urine (up to 10%). Clearance of the drug is increased in these conditions: children 1 to 12, teenagers 12 to 16, adult smokers, elderly smokers, cystic fibrosis, hyperthyroidism. Clearance of the drug is decreased in these conditions: elderly, acute congestive heart failure, cirrhosis, hypothyroidism and febrile viral illness.

The elimination half-life varies: 30 hours for premature neonates, 24 hours for neonates, 3.5 hours for children ages 1 to 9, 8 hours for adult non-smokers, 5 hours for adult smokers, 24 hours for those with hepatic impairment, 12 hours for those with congestive heart failure NYHA class I-II, 24 hours for those with congestive heart failure NYHA class III-IV, 12 hours for the elderly.

[edit] Indications

The main therapeutic uses of theophylline are aimed at:

chronic obstructive pulmonary disease (COPD)
asthma
infant apnea

[edit] Uses Under Investigation

A clinical study reported in 2008 that theophylline was helpful in improving the sense of smell in study subjects with anosmia.^[9]

[edit] Mechanisms of action

The main mechanism of action of theophylline is that of adenosine receptor antagonism.^{[citation needed]} Theophylline is a non-specific adenosine antagonist, antagonizing A1, A2, and A3 receptors almost equally, which explains many of its cardiac effects and some of its anti-asthmatic effects.^{[citation needed]}

Another proposed mechanism of action includes a non-specific inhibition of phosphodiesterase enzymes, producing an increase in intracellular cyclic AMP; however, this is not known with certainty.^[10]^[11]^[12]

Theophylline has been shown to inhibit TGF-beta-mediated conversion of pulmonary fibroblasts into myofibroblasts in COPD and asthma via cAMP-PKA pathway and suppresses COL1 mRNA, which codes for the protein collagen.^[13]

It has been shown that theophylline may reverse the clinical observations of steroid insensitivity in patients with COPD and asthmatics that are active smokers (a condition resulting in oxidative stress) via a distinctly separate mechanism. Theophylline in vitro can restore the reduced HDAC (histone deacetylase) activity that is induced by oxidative stress (i.e., in smokers), returning steroid responsiveness toward normal.^[14] Furthermore, theophylline has been shown to directly activate HDAC2.^[15] (Corticosteroids switch off the inflammatory response by blocking the expression of inflammatory mediators through deacetylation of histones, an effect mediated via histone deacetylase-2 (HDAC2). Once deacetylated, DNA is repackaged so that the promoter regions of inflammatory genes are unavailable for binding of transcription factors such as NF-KB that act to turn on inflammatory activity. It has recently been shown that the oxidative stress associated with cigarette smoke can inhibit the activity of HDAC2, thereby blocking the anti-inflammatory effects of corticosteroids.) Thus theophylline could prove to be a novel form of adjunct therapy in improving the clinical response to steroids in smoking asthmatics.^{[citation needed]}

[edit] Side-effects

The use of theophylline is complicated by the fact that it interacts with various drugs, chiefly cimetidine and phenytoin, and that it has a narrow therapeutic index, so its use must be monitored to avoid toxicity. It can also cause nausea, diarrhea, increase in heart rate, arrhythmias, and CNS excitation (headaches, insomnia, irritability, dizziness and lightheadedness) ^[16]^[17]. Its toxicity is increased by erythromycin, cimetidine, and fluoroquinolones, such as "cipro" (ciprofloxacin). It can reach toxic levels when taken with fatty meals, an effect called dose dumping.^[18]

[edit] Synthesis

Theophylline can be prepared synthetically starting from dimethylurea and ethyl 2-cyanoacetate.

[edit] References

^ MAFF Food Surveillance Information Sheet
^ RXlist dosage and administration information for theophylline
^ Kossel A. (1888). "Über eine neue Base aus dem Pflanzenreich.". Ber. Dtsch. Chem. Ges. 21: 2164–2167. .
^ Kossel A. (1889). "Über das Theophyllin, einen neuen Bestandtheil des Thees.". Hoppe Seylers Z. Physiol. Chem. 13: 298–308. .
^ Fischer E., Ach L. (1895). "Synthese des Caffeins.". Ber. Dtsch. Chem. Ges. 28: 3139. .
^ Traube W (1900). "Der synthetische Aufbau der Harnsäure, des Xanthins, Theobromins, Theophyllins und Caffeïns aus der Cyanessigsäure]". Chem. Ber. 33: 3035–3056. doi:10.1002/cber.19000330352.
^ Minkowski O. (1902). "Über Theocin (Theophyllin) als Diureticum.". Ther. Gegenwart 43: 490–493. .
^ Schultze-Werninghaus G., Meier-Sydow J. (1982). "The clinical and pharmacological history of theophylline: first report on the bronchospasmolytic action in man by S. R. Hirsch in Frankfurt (Main) 1922.". Clin. Allergy 12: 211–215. PMID 7042115. .
^ For Some Who Have Lost Their Sense Of Smell, A Once Popular Asthma Drug Could Help. Science Daily, American Physiological Society
^ Theophylline at Priory.com
^ Ito K, Lim S, Caramori G, et al. (2002). "A molecular mechanism of action of theophylline: Induction of histone deacetylase activity to decrease inflammatory gene expression". Proc. Natl. Acad. Sci. U.S.A. 99 (13): 8921–6. doi:10.1073/pnas.132556899. PMID 12070353.
^ RxList.com
^ Yano, Biochem and Biophys Res Comm V341-3, 2006
^ Ito et al., 2002a
^ Ito et al., 2002b
^ MedlinePlus Drug Information: Theophylline
^ THEOPHYLLINE - ORAL 24 HOUR TABLET (Uni-Dur) side effects, medical uses, and drug interactions
^ Food-induced "dose-dumping" from a once-a-day theophylline product as a cause of theophylline toxicity.

Wikimedia Commons has media related to: Theophylline

[0] MAFF Food Surveillance Information Sheet

[1] RXlist dosage and administration information for theophylline

[2] Kossel A. (1888). "Über eine neue Base aus dem Pflanzenreich.". Ber. Dtsch. Chem. Ges. 21: 2164–2167. .

[3] Kossel A. (1889). "Über das Theophyllin, einen neuen Bestandtheil des Thees.". Hoppe Seylers Z. Physiol. Chem. 13: 298–308. .

[4] Fischer E., Ach L. (1895). "Synthese des Caffeins.". Ber. Dtsch. Chem. Ges. 28: 3139. .

[Traube2-5] Traube W (1900). "Der synthetische Aufbau der Harnsäure, des Xanthins, Theobromins, Theophyllins und Caffeïns aus der Cyanessigsäure]". Chem. Ber. 33: 3035–3056. doi:10.1002/cber.19000330352.

[6] Minkowski O. (1902). "Über Theocin (Theophyllin) als Diureticum.". Ther. Gegenwart 43: 490–493. .

[7] Schultze-Werninghaus G., Meier-Sydow J. (1982). "The clinical and pharmacological history of theophylline: first report on the bronchospasmolytic action in man by S. R. Hirsch in Frankfurt (Main) 1922.". Clin. Allergy 12: 211–215. PMID 7042115. .

[8] For Some Who Have Lost Their Sense Of Smell, A Once Popular Asthma Drug Could Help. Science Daily, American Physiological Society

[9] Theophylline at Priory.com

[10] Ito K, Lim S, Caramori G, et al. (2002). "A molecular mechanism of action of theophylline: Induction of histone deacetylase activity to decrease inflammatory gene expression". Proc. Natl. Acad. Sci. U.S.A. 99 (13): 8921–6. doi:10.1073/pnas.132556899. PMID 12070353.

[11] RxList.com

[12] Yano, Biochem and Biophys Res Comm V341-3, 2006

[13] Ito et al., 2002a

[14] Ito et al., 2002b

[15] MedlinePlus Drug Information: Theophylline

[16] THEOPHYLLINE - ORAL 24 HOUR TABLET (Uni-Dur) side effects, medical uses, and drug interactions

[17] Food-induced "dose-dumping" from a once-a-day theophylline product as a cause of theophylline toxicity.

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