Glycosides
Dr. Amol Kharat
Objectives
To study the Glycosides in the form of
Meaning,
Different types
Properties, occurrences, uses
Isolation Method
General Biogenetic Pathway
Pharmacognostic account of different drug containing important constituents glycoside.
Glycosides
• Definition:Organic natural compounds present in a lot of plants and some animals, these compounds upon hydrolysis give one or more sugars (glycone) β_form and non sugar (aglycone) or called genin.
• Solubility:glycosides are water soluble compounds and insoluble in the organic solvents.Glycone part: water soluble, insoluble in the organic solvents.Aglycone part: water insoluble, soluble in the organic solvents.Some glycosides soluble in alcohol.
Separation between glycosides parts:Glycosides glycone +aglycone +HCL
G + A +salt+H2O (H2O+G)+A (H2O+G)+(chloroform+A)We can separate them by using separatory
funnelThe best solvent to extract aglycone is Ethyl
acetate because:A- immiscible in water.B- always presents in the upper layer.
Neutralization byUsing alkaline
Filtration
chloroform
Hydrolysis+HCLdil
Note:Alcohol and acetone are water miscible compounds,so we can't use them as organic solvents for aglycone separation.
physico-chemical properties of glycosides(general)
• Colorless, solid, amorphous, nonvolatile (flavonoid- yellow, anthraquinone-red or orange.
• Give positive reaction with Molisch's and Fehling's solution test (after hydrolysis).
• They are water soluble compounds, insoluble in organic solvents
• Most of them have bitter taste (except: populin, glycyrrhizin, stevioside).
Cont...• Odorless except saponin (glycyrrhizin).• when a glycosides has a lot of sugars its
solubility in water decrease.• Glycosides hydrolyzed by using mineral acids
and temperature or by using enzymes such as:a- Emolsin Bitter almond seeds.b- Myrosin or Myrosinase black mustard
seeds.c- Rhamnase glycosides containing rhamnose
as sugar part.
Biosynthesis of glycosides(O-glycosides)
• UTP(Uridine Triphoshate) +sugar-1-phoshate UDP-sugar + ppi(Pyrophosphate inorganic).
• UDP-sugar +acceptor (aglycone)Acceptor-sugar +UDP
Uridylyl transferaseEnzyme
Glycosyl transferaseEnzyme
Glycosyl transferaseEnzyme
The function or the role of glycosides in the plant organism
• Converting toxic materials to non or less toxic.
• Transfer water insoluble substances by using monosaccharide.
• Source of energy (sugar reservoir).• Storing harmful products such as phenol.• Regulation for certain functions(growth).• Some have beautiful colours(pollenation
process).
Cont…
• Some glycosides have antibacterial activity, so they protect the plants from bacteria and diseases.
Bitter almond Amygdalin
bacteria
HCNhydrolysis
kill
Eomlsin enzyme
Classification of glycosides
Classifications of glycosides according to their therapeutic effects• CHF and cardiac muscles stimulators
such as:a-Digitalis glycosides: digoxin, digitoxin, gitoxin
(Fox glove leaves).b- Ouabain: Strophanthus gratus seeds.c- K-strophanthin -Strophanthus kombe seeds.d- Scillaren A,B which isolated from red and white
Squill bulbs.e- Convolloside:Convallaria majalis – Lily of the
Valley.
Cont…
• Laxative group of glycosides:a- Sennoside A,B,C,D (Senna leaves and
fruits).b- Cascaroside A,B (Cascara bark).c- Frangulin and glucofrangulin(Frangula
bark).d- Aloin and barbaloin (Aloe vera and Aloe
barbadensis juice).
Cont…• Local irritant group:
a-Sinigrin(Black mustered seeds_Brassica nigra)b-Sinalbin(White mustered seeds_Brasica alba)
• Analgesics and antipyretics:Salicin Salisylic acid - Willow or Salix bark.
• Keeping elasticity of blood vessels like:Rutin_Rutoside (Bitter orange peels, Lemon peels)
• Anti-inflammatory group: a- Aloin for 1)acne 2)peptic ulcer
b-Glycyrrhizin
hydrolysis
Classification of glycosides according to glycone part
• Glucose _ glucoside group like in Sennoside.
• Rhamnose _ Rhamnoside like in frangullin.
• Digitoxose _ Digitoxoside like in digoxin.• Glucose and Rhammnose _
Glucorhamnoside _ glucofrangulin.• Rhamnose and glucose _
Rhamnoglucoside _ Rutin.
Classification of glycosides on the basis of the linkage between glycone
and aglycone part• O-glycosides : in these glycosides the sugar part
is linked with alcoholic or phenolic hydroxyl or carboxyl group.
• S-glycosides : in these glycosides the sugar attached to a Sulfur atom of aglycone such as in sinigrin.
• N-glycosides : in these glycosides the sugar linked with Nitrogen atom of (-NH2,-NH-)amino group of aglycone like in nucleosides DNA,RNA
• C-glycosides : in these glycosides the sugar linked (condensed) directly to Carbon atom of aglycone like in aloin.
N.B C-glycosides are not hydrolyzed by acids or alkalis or by enzymes mainly .
Classification of glycosides according to a glycone part :
1- if a glycone part alcohol -this group called alcoholic group like Salicin
2- if a glycone part aldehyde- this group called aldehydic gr. like glucovanillin.
3- if phenol called phenolic group like arbutin .
4-if cyanone called cyanogenic or cyanophoric or cyanoside like amygdalin.
5-if thio called glycosides or isothiocyanate glycoside like sinigrin or sinalbin (-S=C=N-) (SCN)
6-anthracene -------> anthraquinone glycoside –sennoside-.
7-steroid ------ steroidal glycoside (cardiac) Digoxin
8-flavone ,flavonol, flavanone –flavonoid glycoside
9-triterpenoid –saponin glycoside –glycyrrhizin ,melanthin (nigella seeds) or ginsenoside .
Most of glycoside may be named according to the plant from which they isolated for example:
1-salicin –salix-
2-cascaroside _cascara
3-aloin- Aloe vera
4- sennoside – senna-
5-frangulin – frangula
6- glycyrrhizin – glycyrrhiza
And others.
Always glycosides founded in the plant with the enzymes which hydrolyzed them.
We must damage these enzymes first to extract these glycoside by the following steps:
1-drying the plants fresh in special oven at 100 c for 30 minutes.
2-boiling them with organic solvents for 20 minutes
3- boiling them with acetone 5 minutes
N.B.
If present in this plant tannins or resins we add lead acetate to precipitate them.
Classification of glycosides according to a glycone part.
1- phenolic group of glycosides:-
Such as arbutin which isolated from bearberry leaves
Uses: UTI as antiseptic and antibacterial & mild diuretic
Drugs :
-Esoterica :cream :age spots
-hydroquinone solution : wet hands
2- saponin group of glycoside
a. Important group of glycosides which widely distributed specially in the higher plants parts
b. Most of them are neutral compounds, soluble in water insoluble in the organic solvents.
d. Irritant compounds for mucous membranes
e. They form with hydrolysis glycone part which usually β-D-glucose or it’s acids (glucuronic acid) + Sapogenin
f. Their aqueous solutions from froths (foam) on shakin and form emulsions on shaking and heating with oils and fatsg. They destroy RBC (corpuscles) specially for fish and cold blooded animalsm. Sapogenin (Triterpenoid) divided to : 1- steroidal Sapogenin 2- pent acyclic Sapogenin
Examples:- licorice roots contain saponin glycoside which called Glycyrrhizin
Glycyrrhizin hydrolysis glycyrrhetic acid + Z.M. glucyr acid
Sweet taste : solution in H2O bitter taste insoluble in H2O
expectorant anti-inflammatory
Ginseng roots
Panax roots
Panax quinquefolius ,panax ginseng -contains saponin glycoside –ginsenoside ( panaxoside)
Triterpenoid + steroidal nucleus
Ginseng root uses : 1- stimulant 2- Tonic 3- anti-stress 4-adaptogenic agent .
Drugs :
1- geriatric pharmaton
2- gerimax
3- polyvit
Anthraquinone group of glycosides 1. They are anthracene derivatives (anthracene = is the main
nucleus for anthraquinone compounds.
2. In the plant they biosynthesized from acetyl-CoA and malonyl-CoA.
3. They have cathartic property (laxatives and purgative but some of them have anti-inflammatory activity.
4. With hydrolysis they give aglycone part which is di,tri or tetra hydroxy anthracene derivatives.
5. They hydrolyzed only by acids or by enzymes, but not hydrolyzed by alkalines.
6.They have orange or red color (most of them)
7.Soluble in water, insoluble in the organic solvents.8. They have bitter taste and slightly characteristic odor.9. Anthraquinone may be free state compounds (free from sugar)or anthraquinone glycoside.
Relationship between anthracene derivatives
According to linkage between glycone part and aglycone part anthraquinone glycoside may classified to :
1.C-glycoside … very stable to hydrolysis.2.O-glycoside … 3-o and c- glycoside.
Alcoholic group of glycosides
Such as: Salicin which obtained from Salix bark, Willow bark.Salicin hydrolyzed by: 1.Enzyme emolsin2.Acid like HCl,HNO3
3.Alkaline solutions like NaOH
The effect of salicylic acid :
1. Analgesic.2. Anti-pyretic.3. Anti-coagulant (anticlotting agent).4. Anti- inflammatory activity (Rheumatism)5. Wart and corn remover6. Prevents colon cancer
Aldehydic group of glycoside
Such as :Glucovanillin which obtained from :Vanilla beans (fruits)** Vanillin : volatile oil which used as flavoring agent** vanillin : 1.phenolic group volatile oils
2.aldehyde group of volatile oils
Isothiocyanate group of glycoside( sulfur glycoside or thio glycoside )
1. Group of glycosides which contains sulfur (S-glycoside)
2. Present in many cruciferous plants, on hydrolysis.3. They produce isothiocynate (SCN) aglycone
Such as : 1.sinigrin which founded in Black Mustard seeds
2.sinalbin which founded Brassica alba ---White Mustard seeds.
These plants contain also enzyme myrosin (myrosinase) which hydrolyze these glycosides.
Properties of Mustard oil :1.Irritant for mucous membrane2.Volatile3.Pungent4.Characteristic odor
The uses of Mustard seeds : counter irritant rubefacient, condiment, emetic in large doses.
Drug :Acne aid soap®- AgisTreatment of Acne .
Sinapine : alkaloids – alkaloidal amine group (protoalkaloid properties of Acrinyl isothiocynate.
1.Less irritant than allyl isothiocynate.2.Less volatile.3.Odorless.4.Pungent.
Uses of white mustard seedsCondiment, carminative, counter irritant, emetic
Organic sulfur drugsGarlic cloves :Characteristic odor of GarlicAllicin : yellow liquid responsible for the odor of
Garlic.Uses :1.Anti-bacterial2.Anti-hyperlipidemic activity HDL3.anti-histaminic4.anti-coagulant5.Immune system stimulant. ** Coated tablet and capsules stomach acid
inactivates alliinase enzyme.
Cyanogenic glycosidesGroup glycosides which widely distributed between the membersof Rosaceae family.They gave with hydrolysis HCN (Hydrocyanic acid)They derived from nitrile of mandelic acid.
Cyanosides like :1. Amygdalin : a. Bitter almond seeds.
b. Apricots seeds.c. Plums seeds.d. Peaches seeds
2. Prunasin : present in Wild Cherry bark (( Prunus sertina))Linmarin : Linseeds
The plants contain enzyme emolsin which produce during hydrolysis two enzymes 1. Amygdalase hydro. Amygdalin.2. Prunase hydro.Prunasin.
Flavonoids Flavonoids Large group of glycosides which widely distributed in the plants
kingdom and in all plants parts (leaves, roots, rhizomes, fruits peels)
Various colors in flowers( yellow, orange, red, purple.)They are benzo-gama-pyrone derivatives.Their chemical structure based on (C6 C3 C6 ).
The general uses of Flavonoids and Flavonoid glycosides.1. Increase elasticity of blood vessels specially Rutin and
hesperidin which known as vitamin (p)2. Anti inflammatory activity like Taxifolin
3. Anti spasmodic activity like Thyme and sage flavonoids.4. Cytostatic activity.
Classification of Flavonoids according to the main nucleus
Flavonoids glycosidesflavonoidsMain nucleus
Quercitrin Rhamnoglucoside
quercetinFlavonol unsaturated yellow
VitexinDiosmetinFlavone (unsat)Yellow
NaringinHesperitin Flavanone (satur)colorless
group of glycosides which has powerful action on C.G (Cardiac glycosides) :** cardiac muscles (cardiac muscle stimulant).
C.G glycone part consist of one , two, three monosaccharide units or more similar or different
Aglycone part has steroidal nucleus
cyclopentanoperhudrophenanthrene
B. glycone part of C.G always attached at C-3 position of aglycone partclassification
1. cardenolide (one double bond, lactone ring) :Has five member lactone ring (unsaturated) attached at C17 B position of steroidal
nucleus.
2. Bufadienolide: (contain two double bonds, lactone ring)
Has six member ( unsaturated ) lactone ring attached at C-17 alpha – position
What is important for activity of C.G :-
position makes the glycoside very 14C) The presence of hydroxyl group in 1active and gives rapid action in the body, but if we change it to (H+) group the drug will be inactive or less active.
2) The presence of Alpha & Beta unsaturated lactone ring increases the activity of C.G, but if we make it saturated the C.G will lose its activity.
3) The ring junctions Cis, Trans, Cis make the nucleus very stable so more active.
4) The sugar part increases absorption and distribution of C.G in the body
S.P : Glucose, Rhamnose, Cymarose, Digitoxose
Examples of Cardenolides
Digitalis glycosides)1
DigoxinDigitoxinGitoxin
Strophanthus gratus C.G :)2
Oubain
Strophanthus Kombe glycoside :)3
K- strophanthin
Bufadienolide example
Squill bulb glycosideScillaren
** Chemical tests :-
1) Keller Kiliani test : C.G + CH3COOH + H2SO4 + FeCl3 brown
2) Legal test : C.G + pyridine sodium nitroprusside Red to pink colour
*Uses : 1-CHF 2- arrhythmias
* General properties of C.G : 1- Amorphous powder 2-bitter taste
3- sol. In H2O 4-Insol. In Org. solvents
5- Very toxic compounds 6- Odorless
dig. Bind specific antibody
Outcomes
Student understood
Glycoside by following way
Meaning
Different types
Properties, Classification, uses
Isolation Method
General biogenetic pathway
Pharmacognostic account of different drug containing important constituents glycoside.