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麝香草(萃取液)

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Information

THYMOL C10H14O

PRODUCT IDENTIFICATION

CAS NO.

89-83-8


EINECS NO.

201-944-8

FORMULA

C10H14O

MOL WT.

150.22

H.S. CODE

2907.19

TOXICITY

Oral rat LD50: 980 mg/kg

SYNONYMS

p-Cymen-3-ol; Thyme camphor; m-Thymol;

3-Hydroxy-p-cymene; 3-Methyl-6-isopropylphenol; 6-Isopropyl-m-cresol; Timol; 6-Isopropyl-3-methylphenol; Isopropyl cresol; 2-isopropyl-5-methyl phenol; Thymic acid; 1-Hydroxy-5-methyl-2-isopropylbenzene; 1-Methyl-3-hydroxy-4-isopropylbenzene; 3-p-Cymenol; 3-Hydroxy-1-methyl-4-isopropylbenzene; 5-Methyl-2-isopropyl-1-phenol; 5-Methyl-2-(1-methylethyl)phenol; 6-Isopropyl-m-cresol;  2-Isopropyl-5-methylphenol;

DERIVATION

CLASSIFICATION

PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE

white crystal

MELTING POINT

48 - 51 C

BOILING POINT

233 C

SPECIFIC GRAVITY

0.965

SOLUBILITY IN WATER

Very slightly (soluble in paraffin oil; alcohol)

pH

VAPOR DENSITY

5.2

AUTOIGNITION

REFRACTIVE INDEX

Health: 3 Flammability: 1 Reactivity: 0

NFPA RATINGS

FLASH POINT

102 C

STABILITY

Stable under normal conditions.

GENERAL DESCRIPTION & APPLICATIONS

English:Thyme

Scientific term:Thymus vulgaris

The musk grass Fen(Thymol)

The musk grass extracts(Thyme Extract)

Musk grass Fen. Thymopoietin

The thyme brain[Fen]; Musk grass Fen thyme camphor

Nickname:Musk grass

Section:Lips form section

Classification:Often green and small bush(get herbage for many years)

At first habitat:Mediterranean littoral

The stub is high:Straighten a type 20-40 cm, crawl a type 10 or so

Stub:30-40

Bloom a period:3-6 months in Taiwan, foreign 5-7 months

Make use of part:Leaf, flower, caulis

Flavor characteristic:Have the sweet smell ingredient of the musk grass Fen, have elegant and heavy spirit.

Usage:The cuisine, health, hairdressing, tea drinks, ethereal oil, flower arrangement, horticulture, craft

Suggest effect:Promote digest, disinfect, strong, disinfect, antisepsis

Thymol (Thyme Camphor): a white crystals with camphor like odor, is a phenolic compound obtained naturally from thyme oil (or other volatile oils) or prepared synthetically. It is very slightly soluble in water; soluble in paraffin oil and alcohol. It is used as a stabilizer in pharmaceutical and as a topical antiseptic, antibacterial, and anti-fungal agent. It is also used as a flavoring agent for drugs (camphor, herbal, wintergreen,disinfectants, origanum )

Have the herbs of the stimulating smell, also make the food seasoning, bee good thyme, for hundreds of years, the cc mile thyme Mi always famous, in ancient Greece sanctuary, the thyme has ever used to Xun joss-stick, it is produced in an European south at first, region in Mediterranean, Asia minor with do a leaf Central Asia brown green, crush pieces aroma.The flavor mightiness, mordacity, its ethereal oil is in common use to make in the spice and toothpaste, having antisepsis and anaesthetizing a function, also useding to oral medicine, bee with height of the action look for thyme, the Greece and Rome artificial honey and plant thyme widely, the thyme also symbolizes brave, the style and grace, "the To smell of Thyme" praises language, at the ancient times Athens person, even soon afterward the ancient Rome person's, the society spreads most of view is bathing after at own of use thyme before the chest, the medicine grass learns a house toward melancholiac to recommend thyme, with heavy flap in low spirits spirit condition.

A musk still a lung enhances, "internal hour can smooth the stomach department to also remove flatulence".In addition, people's many years use it to come to the Qie phlegm and disinfect, and it still has the anti- fungi function.Can also take it while having a sore throat to make mouthwash, the result is fairly good!!

Plant characteristic:

The temperate zone region is familiar to go to the full mountain time wild thyme, the blossom of the amiability bloomed before early summer, landscape beautiful grand view.Be divided into erection and crawl two generally.In order to cover with a pale green color of the needle form, the leaf starts lignification and presents of the cent form from the Ji department.Follow the caulis minister to pay the thin pink lips form floret, the assortment also has lavender, red, white etc..There are numerous specieses, such as lemon thyme(the Lemon Thyme) and the silver spot thyme(the Silver Thyme)...etc..

Educate a method:

Sex pleased and alkaline soil, need sunlight ample, drain good.The seed is small, can use dissemination or insert an etc. method to breed, about about 10-15 days germination.Choose spring, the autumn sow seeds for two seasons, growing up slower the first year, the second year then grow up quickly and bloom.Can also adopt to transplant or the offshoot method breed, but among them"layering" result is the best, the livability is the most high, suggesting the raw recruit can use this method.

Adopt to accept conservancy:

Can pick at any time the caulis, use directly, or only use fresh leaf's slice.The caulis, leaf's aridity places to dry gradually in shade in the cool place nature, or whole pour to hang to dry by air, place in the bottle inside mark clearly date, and use early.

Extensive usage:

1.Cuisine:Leaf's slice can combine every kind of meat, the fish molluscs cuisine, matching the beef is also a delicacy;The biscuit pastry wait for every kind of food processing and all can make use of.

2.Health:Promote digest, recover physical strength, disinfect, antisepsis etc..

3.Hairdressing:Dissolve and can recover fatigue into the makeup water.

4.The tea drinks:The fresh vanilla or aridity all can use alone, or combine other vanilla plants to use together after.The fresh lemon thyme eating is special, the suggestion tries.

5.Ethereal oil:The leaf, flower, caulis can refine ethereal oil, there is result of fig uping the motion.

6.Flower arrangement:Can use in the dry flower and escort a flower and arrange flowers etc. various adornments up.

7.Horticulture:The ground top of the garage can plant to crawl a thyme, will have intention to surprisingly result.

8.Craft:Making use of or matching decorations with other vanillas alone all can express its special features.

Body can promote circulatory system, reduce cholesterol and promote the leukocyte formation with strengthen resistibility, to chronic breath way disease, asthma, vein Dou Yan, larynx pain, catch a cold, develop a fever, have a headache, flow nose water, liver, digestive system, muscle ache, women's mastitis, suffer from insomnia the improvement of[with] etc. contain help.

Mind enhance nerve, activate brain cell and raise memory and attention.The cancellation is exhausted and resists a setback, stirs up courage and releases a mind.

Hairdressing the pimple, eczema, wound, the skin inflammation...etc. are all helpful.Scurf, skin of head Yang, repress to fall hair.

Other antisepsis characteristic.

1.     Take a bath slow stop and think with town through.

2.     Dissolve and can remove fatigue into the makeup water.

3.     Immerse and add honey and can cure cold and have a sore throat, stop coughing to turn the phlegm, protection breath way in, be suitable for processing tonsillitis, bronchitis particularly etc. condition of illness, can enhance lung;Can also stimulate the manufacturing of the leukocyte, help the body holdout disease, control a germ to spread, contribute to an immune system.

4.     Making tea can help to help digest and remove flatulence to also solve wine enough, having a help towards promoting and boosting digestive system particularly, can also improve the stomach department unwell cause of headache.

5.     The ability Jian turns skin of head, to scurf with repress to fall hair very much effectively

6.     Can make the wound, Chuang, eczema of the skin restore to original soon.

7.     Still have already disinfect, defended an insect and go to the function of the gamey smell, antisepsis besides.

8.     The fresh thyme tea fit melancholy and weariness drink, the morning replaces coffee by this vanilla tea particularly effectively, strain or work pressure big hour can also drink last.

9.     The skin quality of system excess secretes, keep to have no oil dumb light of the skin hydrate hydration and strengthen an activity

10.   Can promote digest, recover physical strength, protect the breath way, prevent catching a cold, stopping coughing to turn phlegm, ease women's menstrual cramp, promote and boost spirit, remove fatigue and enhance heart, anti- rheumatism.

But the pregnant woman should avoid drinking.

11.   Moisten, increase sheen

12.   Repress a collagen is resolved, reach the purpose of the pore delicacy.

13.   Repress a collagen is resolved, prevent pore from thin Wen creation thoroughly

14.   The strong power anti- oxygen, can insure the fatty acids composition is effectively absorbed by body

The musk grass Fen(thymol) is the main composition of the thyme ethereal oil, and the thyme ethereal oil be applied early is anti-virus in the antisepsis of use;The resveratrol(resveratrol, 3, 5, 4'-trihydroxystilbene) is to belong to polyphenol compounds, having an anti- to oxidize, prevent cancer and suppressing germ.This research aims at the musk grass Fen and resveratrol, through distinguish with the different density and the escherichia coliform(the Escherichia coli CCRC 10675 and E. The coli O157:the H7 CCRCs 15374)and the golden color staphylococcus(the Staphylococcus aureus CCRC 10780, CCRC 12655 and CCRC 13962) makes use of again the dilution method development to count after mixing the 1-40 mins.The result shows the musk grass Fen and resveratrol to each test germ stub it repress result, all manage the increment of the density and time everywhere and obvious exaltation.While handling to the 40 mins while increasing the musk grass Fen 125 ppms or the resveratrol 250 ppms alone, to E. The coli CCRC 10675 and E. The coli O157:the H7 CCRCs 15374 both have respectively 0.16, 0.78 logs and 0.26, the 0.18 log value disinfect power, mixing both to counteract to handle a 10-20 mins, then have 1.02~3.31 log value it to disinfect power, show the musk grass

BE repressed completely its growth namely when the mixture counteracts to handle a 1 min, can know the mixture counteracts a set it suppress the germ effect to surpass to increase the musk grass Fen or the resveratrol alone, show to have to add a function and strengthen it to suppress a germ activity.Apply after fresh food, soaking the bud of Mu Xiu and the mushroom slice through the ethanol aqua of the musk grass Fen or the resveratrol handling, in 4 ℃ store the period measurese to always get the germ variety of[with] few growths.Show as a result the musk grass Fen and resveratrol suppress the mushroom and the bud of Mu Xiu germ is live, all managing the increment of the density everywhere and raising obviously, with the result that 500 ppms handle best.Have while aiming at the bud of Mu Xiu and speech, handling a 30 mins by the musk grass Fen 500 ppms to also store to the 48 hs in 4 ℃ >1 log it suppress the germ effect, with the resveratrol of the same density handle the Mu Xiu bud have a 0.33 logs it to suppress the germ effect about;To mushroom, be with the musk grass Fen or the resveratrol 500 ppm processing and store a 48 hs in 4 ℃ , all have>3 logs it suppress the germ effect.In regard to same material, the musk grass Fen it suppresses the germ activity slightly big after the resveratrol of the same density, but this two compositions handling a 30 mins by the density with 125 ppms only, wasing stored by 4 ℃ 48 hs, mushroom and the bud of Mu Xiu of always get the germ number all low in or near with go to the control set handled by the ion water.Show the musk grass Fen in lower of the density 250 ppms, can reach certain degree it suppress germ an activity, and repress the microorganism survival of 4 ℃ store mushroom and the clover bud effectively, have further a potential of developing the application.

Be much more than only because the politician contain body odor, the musk grass has been the symbol of the courage from time immemorial, the plant scientific term"thymus" of the musk grass(thyme) comes from courage"thymon" of the Greek.

At the undemocratic society, the musk grass is the patent of the politician, in order to prevent the people ate courageous rebel.And in the democratic society, the politician only doesn't eat the musk grass every day, also taking a shower with the musk grass every day, because the musk grass can let the politician even stand to announce political views in vibrating a machine, the hand and foot can't shiver, either.In the meantime for the sake of Ying get ballot, the musk grass can make the politician have enough courage again thick and black of speak some such as the funny lies of"the edacity have to be all understood by fatty and swollen appearance to present, the but again says the oneself is like fairy self-containedly similar have never eaten";Open some such as the Arabian Nights of"free help everyone pack up can fly arbitrarily and freely of righteousness wings";Struggle do some such as the cartoon details of"attend and only can use the affair of honor of the knife sword, but polish off opponent with the big gun";Do some such as"in the septic tank swimming" doesn't behave to know of matter etc..

The musk grass the ancient time of above-mentioned increment courage spreads function, besides which, mutually the function of the Fu can also promote circulatory system, reduce cholesterol and promote the leukocyte formation to strengthen a resistibility.The musk grass mutually Fu to the chronic breath way disease, asthma, vein Dou Yan, larynx pain, catch a cold, develop a fever, have a headache, flow nose water, liver, digestive system, muscle ache, women's mastitis, suffer from insomnia the improvement of[with] etc. contain help.The category of the musk grass has a lot of also can use, have the most strong medicine grass quality by the wild musk grass of Englands among them.Mutually the Fu musk grass often steeps tea to be used for the help digest to reach agreement to take off hangover.Mutually the Fu musk grass tea also often adds honey to be used for the larynx pain, cold, the Ao breeze a cough...etc..The musk grass ethereal oil mutually the Fu can be used for the headache massage, can also make in to disinfect of spray.The musk grass and rosemary(rosemary) use together and outside mutually Fu and can clean scurf.

The musk grass' ising used especially is a sausage;The spice of the meat, fish etc. speciality.It also Be used for the Xun joss-stick(Raeucher) in ancient times.Its fragrance extract oil main musk of the ingredient grass Fen(Thymol), the musk grass Fen is anti-virus with resist the result for fermenting(Gaerungawidrig).Therefore formerly the musk grass use to digest a problem towards curing the stomach flatulence(Blaehung) and.The gram Nai river bank the pastor write a way:The musk grass ingredient is the ′′ very good stomach medicine ′′ , can also use to sweep chest.The county applies in the disease(the card his sex bronchitis Katarrhe(have a great deal of liquid with sticky Nong)), bronchitis(the Bron chitis), whooping cough(Keuch-husten) of the treatment a cough bronchitis(Husten-Bronchial) aspect in the musk grass.This plant's refining can cure halitosis(Desodoruerend).Then When the Black Death spread, the musk grass is used to prevent infection once and in great quantities.This according to its musk grass Fen, anti-virus, can be treated as the part is right.

Battlefield on the ancient Rome person front, will use what thyme steeps of water to bathe, hope to bring courage for them, so didn't despise it to grow small very short.It has rather sweet and strong medicine grass joss-stick, and thus of flavor, it is said the mind that can release durance, comfort the wound of people's mind.Also strengthen a resistibility, help the skin repair and maintenance, adjust reason the pimple skin quality, activate the brain cell, promote memory and attention, the anti- is upset and comfort mind wound.To scurf with repress to fall hair very much valid.

Thymol, a constituent of thyme essential oil, is a positive allosteric modulator of human GABAA receptors and a homo-oligomeric GABA receptor from Drosophila melanogaster

Abstract

1.                              The GABA-modulating and GABA-mimetic activities of the monoterpenoid thymol were explored on human GABAA and Drosophila melanogasterhomomeric RDLac GABA receptors expressed in Xenopus laevis oocytes, voltage-clamped at -60 mV. The site of action of thymol was also investigated.

2.                              Thymol, 1−100 M, resulted in a dose-dependent potentiation of the EC20 GABA response in oocytes injected with either 1 3 2s GABAA subunit cDNAs or the RDLac subunit RNA. At 100 M thymol, current amplitudes in response to GABA were 416 72 and 715 85% of controls, respectively. On both receptors, thymol, 100 M, elicited small currents in the absence of GABA.

3.                              The EC50 for GABA at 1 3 2s GABAA receptors was reduced by 50 M thymol from 15 3 to 4 1 M, and the Hill slope changed from 1.35 0.14 to 1.04 0.16; there was little effect on the maximum GABA response.

4.                              Thymol (1−100 M) potentiation of responses to EC20 GABA for 1 12s, 6 3 2s and 1 3 2s human GABAA receptors was almost identical, arguing against actions at benzodiazepine or loreclezole sites.

5.                              Neither flumazenil, 3-hydroxymethyl- -carboline (3-HMC), nor 5 -pregnane-3 , 20 -diol (5 -pregnanediol) affected thymol potentiation of the GABA response at 1 3 2s receptors, providing evidence against actions at the benzodiazepine/ -carboline or steroid sites. Thymol stimulated the agonist actions of pentobarbital and propofol on 1 3 2s receptors, consistent with a mode of action distinct from that of either compound. These data suggest that thymol potentiates GABAA receptors through a previously unidentified binding site.

Introduction

The rapid actions of the neurotransmitter GABA are mediated by ionotropic GABA receptors; these are pentameric transmembrane proteins with an integral, GABA-gated, anion channel. In vertebrates, all ionotropic GABA receptors are designated type A, and metabotropic receptors type B. Vertebrate GABAA receptors are confined to the nervous system, whereas insect ionotropic GABA receptors are present in the nervous system and on muscle cells. To date, 20 different vertebrate GABAA receptor subunit isoforms have been cloned: (1−6), (1−4), (1−3), (1), (1), (1), (1) and (1−3). Further diversity can arise due to alternative splicing of some subunit genes (for GABAA receptor classification see, for example,). The most common stoichiometry in mammalian brain is thought to be 2 2 1 , although there is potential for considerable diversity of subunit composition. No data are available on the subunit stoichiometry of insect ionotropic GABA receptors, although three different subunit candidates are known to be expressed, one of which, RDL, has four splice variants. Subunit composition is an important determinant of the pharmacological and biophysical properties of recombinant GABAA receptors, and probably also of native insect GABA receptors.

The many known GABA receptor ligands include agonists, antagonists and modulators; positive allosteric modulators, for example, potentiate the actions of GABA. In humans and other mammals, behavioural effects which are typical of positive allosteric modulators of GABAA receptors include anxiolysis, cessation of convulsions, sedation and general anaesthesia, although some of these effects may result from simultaneous action at other receptor types. Some positive GABAA receptor modulators can also act as agonists on the same receptors when tested at higher concentrations and this activity may influence the spectrum of clinical effects observed. Most GABAA receptor potentiating compounds, with the notable exception of the benzodiazepine clonazepam, also enhance the action of GABA at native and recombinant insect GABA receptors, although they are often less potent than on GABAA receptors and lack the agonist activity observed at some vertebrate GABAA receptors. Insect GABA receptors are targets for several pesticides, such as dieldrin, lindane, BIDN and fipronil, all of which are antagonists. One insecticide analogue, -HCH, potentiates at GABA receptors, and this has been proposed to be acting via the barbiturate binding site on the receptor .

Thymol is a monocyclic phenolic compound, the usual natural source being the essential oil of Thymus vulgaris (Lamiaceae). Its main therapeutic application is in dental preparations to kill odour-producing bacteria. It is also employed as a preservative on the strength of its antimicrobialand antioxidant properties. Thymol has molluscicidal  and insecticidal properties. In the mollusc Lymnaea acuminata, lethal doses of thymol affected the activity of key nervous tissue enzymes, and this was postulated to be the cause of toxicity. As yet, no mechanism of action has been identified for thymol lethality, or that of related monoterpenoids, towards insects.

Recently, thymol was shown to have a direct agonist effect on heterologously expressed human GABAA receptors resembling that of the anaesthetic propofol. In this paper, we examine whether thymol, like propofol, also potentiates the activity of GABA at vertebrate GABAA receptors at lower concentrations than those required for agonist activity. We also test the actions of thymol at a recombinant insect GABA receptor, the Drosophila melanogaster RDLac subunit; this splice variant (one of four products of the Rdl gene) forms a functional homomeric GABA receptor and its pharmacology has been described in detail, including the actions of the insecticides dieldrin, lindane and fipronil. We also examine whether the site of action of thymol is shared by any other known GABA receptor modulators (benzodiazepines, barbiturates, pregnane steroids, loreclezole and propofol).

Methods

Investigations on insect and human GABA receptors were carried out in different laboratories, and this is reflected in minor differences in the respective protocols, as detailed in this section.

GABA receptor subunit cDNAs and cRNAs

Previous publications have described the cloning and sequencing of cDNAs encoding 1, 1, 3, 2 and 6 human GABAA receptor subunits, and also the Drosophila RDLac GABA receptor. Human cDNAs, encoding 1, 6, 3, 1 and 2s GABAA receptor subunits, were supplied by The Molecular Biology Department, Merck, Sharp and Dohme, Terling's Park, U.K. Wild-type Rdlac cDNA was a gift from Dr Richard Roush (Cornell University, U.S.A.); it had been inserted into the cloning vector pNB40. The plasmid was subcloned following established methods; subsequent extraction of pNB40 from E. coli was carried out using endotoxin-free, maxi-prep kits (Qiagen, U.K.). The plasmid was linearised with NotI restriction endonuclease to provide a transcription template, and RDLac cRNA was then synthesised with an SP6 RNA-polymerase and m7G(5')ppp(5')G capped using an 'mMessage mMachine' (Ambion), following the manufacturer's protocol.

Receptor expression in Xenopus oocytes

Human GABA receptor subunit combinations were expressed in Xenopus laevis oocytes. Mature female Xenopus oocytes (Blades, U.K.) were anaesthetised by immersion in a 0.4% solution of 3-aminobenzoic acid ethylester for 30−40 min, or until completely unresponsive, and part of the ovary was excised via a small abdominal incision. The isolated ovaries were immersed in modified Barth's solution (MBS) of the following composition (mM): NaCl, 88; KCl, 1; NaHCO3, 2.4; HEPES, 10; MgSO4 7H2O, 0.82; Ca(NO3)2 4H2O, 0.33; CaCl2 2H2O, 0.91; pH 7.5 (adjusted with NaOH), and then transferred to a hypertonic isolation medium composed of (mM): NaCl, 108; KCl, 2; EDTA, 1.2; HEPES, 10; pH 7.9 (adjusted with NaOH), to aid subsequent manual defolliculation. Residual follicular cells were removed by incubating the oocytes in collagenase type IA (Sigma, U.K.), 0.5 mg ml-1 in MBS, for 6 min. A manual oocyte injection pipette (Drummond, U.K.) was used to administer 20 nl of GABA subunit cDNA mixture to each cell nucleus. Combinations of three human GABAA receptor cDNAs were injected, in the ratios of either 1 : 1 : 1 or 1 : 0.1 : 1 to optimise the expression of benzodiazepine-sensitive GABAA receptors. The concentration of total cDNA in each case was 20 ng ml-1, in an injection buffer consisting of (mM): NaCl, 88; KCl, 1; HEPES, 15; pH 7 (adjusted with NaOH). Following injection, the cells were transferred to MBS supplemented with gentamycin, 50 mg l-1; penicillin, 10,000 U l-1; streptomycin, 10 mg l-1; and sodium pyruvate, 2.5 mM. Oocytes were maintained at 19°C initially.

Insect GABA receptors were expressed in Xenopus oocytes by a similar method. In this case, before injection, the ovaries were washed and stored in standard oocyte saline (SOS), of the following composition (mM): NaCl, 100; KCl, 2; CaCl2, 1.8; MgCl2, 1; HEPES, 5; pH 7.6 (adjusted with NaOH). The cRNA encoding RDLac, 50 ng at 1 g l-1, was injected cytoplasmically using a Nanoject pipette (Drummond, U.K.); some cells were omitted for use in control experiments or injected with the same volume of dH2O. The incubation medium employed consisted of SOS supplemented with antibiotics and pyruvate, at the concentrations described previously, and horse serum at 10 ml l-1. In the 30 min following injection, oocytes were kept at 4°C to allow recovery. Cells were incubated at 16°C and transferred to fresh medium on a daily basis.

Batches of cells responding with large currents were transferred to 4°C to prevent receptor overexpression and prolong viability.

Electrophysiology and data analysis

To investigate GABA receptor responses, oocytes were secured by a ring of stainless-steel entomological pins embedded in the Sylgard floor of a Perspex bath. Fresh bathing solution was continually perfused through the chamber by a gravity-fed system. All drugs were applied dissolved in the bathing solution, although stock solutions of hydrophobic compounds were prepared in DMSO or acetone and diluted in bathing solution such that the concentration of organic solvent did not exceed 0.1%. Solutions of 0.1% acetone or DMSO had no effect on the current required to clamp injected oocyte membranes at -60 mV, nor did they affect responses to GABA. DMSO and acetone, at these concentrations are used as solvents for drugs in oocyte electrophysiology.

Membrane currents recorded from oocytes expressing GABA receptors were measured by two-electrode voltage-clamp, with the membrane held at -60 mV, using 2 M KCl-filled electrodes with 1% agar in 2 M KCl at the tip for GABAA receptors, and 3 M KCL-filled electrodes for RDLac. Electrode resistance was maintained at 0.5−5 M . Currents due to GABAA receptors were amplified using a GeneClamp 500 Amplifier (Axon Instruments, U.S.A.) and recorded on two outputs: electronically, using 'Oocyte' for the Digitimer DigistoreTM System (Digitimer Ltd, U.K.), and on chart paper with a Thermal Arraycorder (WR 8500 series, Graphtec, U.K.). Currents through RDLac homomers were amplified using an Oocyte Clamp OC-725C amplifier (Warner Instrument Corporation, U.S.A.) and displayed on a chart recorder. Each cell expressing GABAA receptors was challenged with 3 mM GABA to obtain the maximal response, and those with a maximal response of less than 100 nA were rejected. This was not necessary for RDLac receptors, as consistently large responses were generated. Only oocytes yielding stable responses were selected for experimental work. Uninjected or distilled water-injected (dH2O-injected) oocytes did not respond to GABA or thymol.

Responses to drugs were measured at peak current. Dose−response data were generated using increasing concentrations of the ligand of interest. Curves were fitted to the data, both for individual cells and also to the mean data points. GraphPad Prism (GraphPad Software, U.K.) was used to fit the four-parameter logistic equation below, which describes a sigmoid curve of variable slope, to the normalised data:

where is the normalised current induced by a given concentration of agonist, [A]; Imax and Imin are the maximal and minimal normalised agonist responses, respectively; EC50 is the concentration of agonist predicted to elicit half the maximal response and nH is the slope (Hill) coefficient. Results are presented as the mean one standard error of the mean ( s.e.m.) of experiments on n cells. EC50 values given in the text for human GABAA receptors are mean values calculated from several EC50 values, each of which was estimated from the dose−response data obtained from an individual cell; for the insect RDLac receptor, the EC50 was estimated from dose−response data pooled from 14 cells. For the graphical presentation of data, all dose−response results were averaged before a single regression line was fitted. Differences between mean values were evaluated by unpaired or paired Student's t-test, or one-sample t-test, as appropriate, and considered significant if P<0.05.

Thymol dose−response experiments on human GABAA receptors were carried out by determining the GABA EC20 for each cell, and then applying the EC20 in conjunction with increasing doses of thymol after a 40 s preapplication with thymol alone. To estimate the GABA EC20 for RDLac homomers, dose−response data from 14 cells were pooled and used to fit a curve to the averaged data. For thymol dose−response experiments, a set concentration of thymol was applied for 2 min, followed by coapplication of this concentration with EC20 GABA. This regime was repeated using increasing concentrations of thymol. Data were handled in the same manner as for the GABA dose−response curves, except that each response was normalised to the EC20 GABA response for each cell.

Further investigations were carried out on human GABAA receptors. The effects of thymol on the GABA dose−response curve were estimated by applying increasing concentrations of GABA to each cell, and then applying the same GABA doses together with 50 M thymol, each after a 40 s thymol preapplication. To assess competitive interactions between thymol and GABA-inhibiting or -enhancing ligands, the GABA EC20 was applied in conjunction with the ligand in the presence and absence of 50 M thymol. To assess competitive interactions between thymol and the agonist-like effects of the positive modulators pentobarbital and propofol, the ligand was applied until stable responses were obtained, and then it was coapplied with 50 M thymol. In order to minimise desensitisation and rundown effects, washout periods between drug applications were 5 min after a maximal GABA response, and 3−10 min after other applications, depending on the drug and concentration applied.

Drugs

Propofol (2,6-diisopropylphenol, Aldrich), 3-HMC (Tocris), GABA (Sigma or Research Biochemicals Inc.), pentobarbital, 5 -pregnanediol, thymol (Sigma), flumazenil (synthesised by K. Moore in the Medicinal Chemistry Department, Merck, Sharp and Dohme, Terling's Park, U.K.).

Results

Potentiation of GABA action by thymol on human GABAA receptors

Initial studies were performed on human 1 3 2s recombinant receptors as this subunit combination is abundant in the vertebrate CNS, and changing one or other of the subunits has a dramatic effect on the actions of modulators. Thymol, 1−100 M, applied prior to (for 40 s) and during the application of EC20 GABA resulted in dose-dependent potentiation of the GABA response. Above 100 M, thymol potentiation decreased with increasing thymol concentration. The maximal potentiation observed for the 1 3 2s GABAA receptor was 416 72% (n=5) at 100 M thymol.

Intrinsic activity of thymol on human GABAA receptors

Cells expressing 1 3 2s did not respond directly to 1−50 M thymol (the change in membrane current over the course of the 40 s application of thymol was never greater than 9 nA in amplitude). Thymol at 100 M and above generated responses, although these were extremely small in amplitude compared to the striking potentiation of the GABA-induced current by this same thymol concentration (as illustrated by the trace in. Dose−response curves showing the agonist action of thymol were not examined because the concentration of acetone required to solubilise 300 M and higher concentrations of thymol affected the current required to clamp the cell.

Thymol potentiates the GABA response mediated by recombinant, homomeric insect (Drosophila melanogaster) RDLac GABA receptors

Of all the splice variants of the Rdl gene, the Rdlac gene product has been most extensively studied. The GABA dose−response curve obtained from oocytes expressing RDLac was used to estimate an EC20 value for GABA of 4 M. This EC20 test concentration was then deployed in further experiments to investigate potentiation by thymol. The EC50 was 8.5 M (95% confidence interval: 7.1−10.0 M), which was close to previously published EC50 values for this receptor.

Thymol, 1−100 M, potentiated the EC20 GABA response when coapplied for 15−30 s, following a 2 min preapplication of thymol alone. The potentiation was fully reversible and dose-dependent. The degree of potentiation by thymol was also affected by the GABA concentration, thymol (100 M) increasing the response to 10 M GABA less than two-fold (data not shown), whereas the response to EC20 GABA (4 M) was potentiated over seven-fold.

Any possible potentiation by concentrations of thymol greater than 100 M could not be investigated due to instability of the clamped current at these doses. Thymol at 100 M was without effect when tested on uninjected oocytes (n=3, from three separate batches).

Thymol is a weak agonist on Drosophila melanogaster RDLac GABA receptors

A small-amplitude, direct agonist action of thymol was observed in oocytes expressing RDLac, but not in uninjected or dH2O-injected cells: Concentrations of 1−50 M thymol and below had a negligible effect, eliciting changes in the membrane potential of 15 nA or less over a 2 min application. Thymol, at 100 M, resulted in currents which were 57 22 nA (n=4) in amplitude at 2 min. Responses to thymol alone began immediately upon application, but were slow to gain amplitude and failed to plateau throughout the 2 min application time.

Effects of thymol on the GABA dose−response curve of human 1 3 2s GABAA receptors

Thymol potentiates the response to concentrations of GABA below EC100, the largest effects being seen over the range EC5−EC50. The amplitudes of currents induced by 3 and 100 M GABA were 7.6 1.7% (n=5) and 89.0 4.8% (n=5) of the maximum, respectively. In the presence of 50 M thymol, these responses were potentiated to 45.0 5.2% (n=5) and 98.6 3.0% (n=5) of the maximum GABA response, respectively. The GABA dose−response curve was shifted to the left by 50 M thymol and the mean EC50 for GABA was reduced significantly from 15 3 to 4 1 M (paired t-test). The Hill slope was also reduced significantly (paired t-test) from 1.35 0.14 to 1.04 0.16. However, 50 M thymol had little effect on the maximum GABA response.

Thymol potentiates the GABA responses mediated by human GABAA receptors of different subunit composition with similar potency

In the range 1−100 M, thymol potentiated the EC20 GABA response of 1 1 2s and 6 3 2s vertebrate GABA receptors in a dose-dependent manner. The thymol dose-response curves obtained for 1 1 2s, 6

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