k-Strophanthidin is a

cardenolide A cardenolide is a type of steroid. Many plants contain derivatives, collectively known as cardenolides, including many in the form of cardenolide glycosides (cardenolides that contain structural groups derived from sugars). Cardenolide glycoside ...

found in species of the

genus Genus ( plural genera ) is a taxonomic rank used in the biological classification of extant taxon, living and fossil organisms as well as Virus classification#ICTV classification, viruses. In the hierarchy of biological classification, genus com ...

Strophanthus ''Strophanthus'' is a genus of flowering plants in the family Apocynaceae, first described as a genus in 1802. It is native primarily to tropical Africa, extending to South Africa, with a few species in Asia from southern India to New Guinea and ...

''. It is the

aglycone An aglycone (aglycon or genin) is the compound remaining after the glycosyl group on a glycoside is replaced by a hydrogen atom. For example, the aglycone of a cardiac glycoside would be a steroid molecule. Detection A way to identify aglycone ...

of k-strophanthin, an analogue of

ouabain Ouabain or (from Somali ''waabaayo'', "arrow poison" through French ''ouabaïo'') also known as g-strophanthin, is a plant derived toxic substance that was traditionally used as an arrow poison in eastern Africa for both hunting and warfare. ...

. k-strophanthin is found in the ripe seeds of Strophanthus kombé and in the lily

Convallaria ''Convallaria'' is a genus of flowering plants. It is usually described as a monotypic genus with the single species ''Convallaria majalis'' (lily-of-the-valley), but now some botanists distinguish up to three species, also including ''Convallaria ...

. K-Strophantidin can be differentiated into: * k-Strophanthin-α, h-Strophanthin, Cymarin, Strophanthidin-D-cymarosid (CAS: 508-77-0) * k-Strophanthin-β, k-Strophanthin, Strophosid, Strophanthidin-glucocymarosid (CAS: 560-53-2) * k-Strophanthin-γ,k-Strophanthosid, Strophanthidin-diglucocymarosid (CAS: 33279-57-1) * Convallatoxin or Strophanthidin-L-rhamnosid (CAS: 508-75-8) * Convallosid or Strophanthidin-glucorhamnosid (CAS: 13473-51-3) Strophantidin is a cardiac glycoside which mechanism of action is similar to Digitalis, Ouabain and digitoxin. It specifically inhibits the membrane protein Na+/ K+ ATPase in muscle tissue (heart) which can lead to Ca2+ overload, diastolic dysfunction, arrythmias and ultimately to heart failure and death. Native African tribes used Strophantidin among other toxins as arrow poison.

History

1505

Arrow poison Arrow poisons are used to poison arrow heads or darts for the purposes of hunting and warfare. They have been used by indigenous peoples worldwide and are still in use in areas of South America, Africa and Asia. Notable examples are the poisons se ...

of the plant

Acokanthera schimperi ''Acokanthera schimperi'', arrow poison tree, belonging to the family Apocynaceae, is a small tree native to eastern and central Africa as well as to Yemen. Uses The bark, wood and roots of ''Acokanthera schimperi'' are used as an important in ...

was found by the Portuguese at Melinde in East Africa. Acokanthera schimperi belonging to the family

Apocynaceae Apocynaceae (from ''Apocynum'', Greek for "dog-away") is a family of flowering plants that includes trees, shrubs, herbs, stem succulents, and vines, commonly known as the dogbane family, because some taxa were used as dog poison Members of the ...

is a small tree.

1858 – 1863

In 1858 – 1863, the Scottish missionary and explorer, Dr

David Livingstone David Livingstone (; 19 March 1813 – 1 May 1873) was a Scottish physician, Congregationalist, and pioneer Christian missionary with the London Missionary Society, an explorer in Africa, and one of the most popular British heroes of t ...

, led a River Zambesi Expedition in Central Africa. In addition to other arrow poisons, Dr Meller found among the Manganja hills a specimen of Strophanthus kombe (a climbing plant of considerable size) at the end of 1861. This plant, specimen of the seed and the extracted arrow poison were sent to Sir W. J. Hocker at Kew Gardens Herbarium in England and also to Europe. Several species of Strophanthus were also used by natives of West Africa as sources of arrow poison including S.hispidus, S. kombe, S.sarmentosus and S. gratus. In 1862, Dr. William Sharpey, Professor of Anatomy and Physiology at University College, London, recognized the extract as a cardiac poison.

1865 – 1885

In 1865, Pelikan of St. Petersburg and also British Drs. Fagge and Stevenson recognized that the action of Strophanthus was similar to that of Digitalis, a foxglove plant. Thomas R. Fraser, Professor of material medicals and therapeutics in Edinburgh also worked on frogs, birds and mammals with that "Kombe arrow poison". He found that the primary action was on the heart, but noted that voluntary muscles were gradually impaired. In 1885, Fraser had isolated a

glycoside In chemistry, a glycoside is a molecule in which a sugar is bound to another functional group via a glycosidic bond. Glycosides play numerous important roles in living organisms. Many plants store chemicals in the form of inactive glycosides. ...

from S. kombe and called it strophanthin, a result which he presented at a meeting of the British Medical Association in Cardiff. Galenical preparations of strophanthus came to be commonly prescribed for cardiac patients. The German pharmacologist,

Oswald Schmiedeberg Johann Ernst Oswald Schmiedeberg (10 October 1838 – 12 July 1921) was a Baltic German pharmacologist. In 1866 he earned his medical doctorate from the University of Dorpat with a thesis concerning the measurement of chloroform in blood, before ...

, had determined the glucosidal nature of digitalis in 1874. Devoid of nitrogen, glycosides are ether-type compounds, derived from sugars and hydroxyl compounds. Aglycone or genin is glycoside with a non-sugar, while glucoside is a glycoside with a sugar such as glucose. The strophanthin from seeds of S. Kombe came to be called strophanthin-K, that from seeds of S- hispidus strophanthin-H and that from seeds of S. gratus or wood of A. schimperi was called strophanthin-G.

1900 - 1960

Dr. Feilchenfeld of Berlin administered strophanthus as premedicant before anesthesia. Albert Fraenkel, pharmacologist in

Heidelberg Heidelberg (; Palatine German language, Palatine German: ''Heidlberg'') is a city in the States of Germany, German state of Baden-Württemberg, situated on the river Neckar in south-west Germany. As of the 2016 census, its population was 159,914 ...

, saw strophanthus as therapeutical in cardiac failure (emergency cases initially). So strophanthin-K (Kombetin) were used oral and intravenous. In 1925, it was recognized that absorption of strophanthus from the gut was less complete than that of digitalis. As consequence, its oral use was declined, whereas IV use was increased. Between 1910 and 1935, Fraenkel reported tens of thousands IV injections of strophanthin without complications. Bruno Kisch (New York City) noted that ouabain (strophanthin-G) has a positive ionotropic activity and faster onset than digitalis. He also found out that the use of cardiac stimulant might alleviate myocardial depression in the presence of shock (first treatment on humans with shock was in 1950). Ouabain get used in anesthesia 1955 in Britain. But in 1960,

sympathomimetic drug Sympathomimetic drugs (also known as adrenergic drugs and adrenergic amines) are stimulant compounds which mimic the effects of endogenous agonists of the sympathetic nervous system. Examples of sympathomimetic effects include increases in heart ...

s as catecholamines were used in management of shock so that the use of strophanthin declined.

Production K-Strophanthidin

Strophanthin can be isolated from Acokanthera schimperi (family of Apocynaceae), from African plant sources (arrow poisons). Strophanthin-K can be found in seeds of S. kombe. Isolation of k-strophanthin can be done using high performance liquid chromatography (HPLC) followed by detection with electrospray ionization mass-spectrometry (ESI-MS) using RP-C-18 column (1% formic acid in water/acetonitrile as mobile phase). For details see 7 5

Metabolism in the human body

K-strophanthidin can enter the body by oral ingestion or intravenously. There is a significant difference in urinary excretion between those two possibilities. The

half-life Half-life (symbol ) is the time required for a quantity (of substance) to reduce to half of its initial value. The term is commonly used in nuclear physics to describe how quickly unstable atoms undergo radioactive decay or how long stable ato ...

of k-strophanthidin when ingested orally is 23.3 hours whereas the half-life after intravenous injection is only 13.4 hours. After 24 hours already 80% of that compound is eliminated from the body. Most of the substance is excreted as a conjugated metabolites, only a small amount is excreted unchanged. There are three metabolic routes possible for k-strophanthidin. The first is the cleavage of the cymarose residue of cymarin (k-strophanthidin-alpha) which leads to k-strophantidin. Secondly, a reduction of C₁₉ aldehyde group of cymarin or k-strophanthidin can take place. This results in the formation of cymarol and k-strophanthidol. The third important route is the conjugation of cymarin and its metabolites with

glucuronate Glucuronic acid (from Greek γλεῦκος "''wine, must''" and οὖρον "''urine''") is a uronic acid that was first isolated from urine (hence the name). It is found in many gums such as gum arabic (c. 18%), xanthan, and kombucha tea and ...

and sulfate at the sugar residue or C₃ of the genin. This is the main route of urinary excretion. The metabolization routes do not differ considering the method of administration (orally or intravenously) so it is still unclear why the half-life differs that much.

Medical use and effects

Cymarin (or k-strophanthidin) is a

cardiac glycoside Cardiac glycosides are a class of organic compounds that increase the output force of the heart and decrease its rate of contractions by inhibiting the cellular sodium-potassium ATPase pump. Their beneficial medical uses are as treatments for co ...

which works as an inhibitor of Na⁺ /K⁺-ATPase . This inhibition has an inotropic effect on the cardiac muscles increasing their force by approximately 100%. The inhibition of that protein leads to its major effect, an increase of the a⁺sub>i. This leads to an influx of Ca²⁺ via the Na⁺ /Ca²⁺-exchanger driven by the emerged Na⁺ gradient. That influx drives the

sarcoplasmatic reticulum The endoplasmic reticulum (ER) is, in essence, the transportation system of the eukaryotic cell, and has many other important functions such as protein folding. It is a type of organelle made up of two subunits – rough endoplasmic reticulum ( ...

of the cardiac muscles to take up and release Ca²⁺. This leads to the mentioned inotropic effect. This only occurs between a given dose between 0.1 μmol/L and 0.5 μmol/L. Beneath the minimum dose there is no significant effect. Above the maximum dose toxic effects occur such as Ca²⁺-overload, diastolic dysfunction and

arrhythmias Arrhythmias, also known as cardiac arrhythmias, heart arrhythmias, or dysrhythmias, are irregularities in the heartbeat, including when it is too fast or too slow. A resting heart rate that is too fast – above 100 beats per minute in adults ...

. The toxic effect is also influenced by the mechanism of action of a protein called phospholemman which regulates the sodium pump in the heart. Depending on the efficiency of this protein toxic effects can be more severe respectively occur faster or can be lessened by it. The inotropic and toxic effect of strophanthidin is already tested in failing human

myocardium Cardiac muscle (also called heart muscle, myocardium, cardiomyocytes and cardiac myocytes) is one of three types of vertebrate muscle tissues, with the other two being skeletal muscle and smooth muscle. It is an involuntary, striated muscle that ...

where it can be used therapeutically to strengthen the failing heart if dosed correctly.