Datura stramonium is an annual herb, growing wild in the most part of our country. All parts of the plant contain belladonna alkaloid. Ingestion of Datura stramonium and the resulting toxic symptoms have been already reported throughout the world, but not in Korea. Two cases of acute anticholinergic symptom due to Datura stramonium intoxication are presented. The diagnosis in the first case was suspected on the basis of clinical signs and symptoms, comfirmed by the appearance of similar symptoms and signs in the second, history of ingestion of small amount of stramonium liquor and identification of the plant specimen obtained. Both recovered spontaneously without neurologic sequalae.
Atropa belladonna ; Datura stramonium* ; Datura* ; Diagnosis ; Eating ; Korea ; Plants

It is well known that small dose of belladonna alkaloid(atropine, scopolarnine) has the effect of decreasing the heart rate in normal conscious subjects, but the mechanism involved in it remains still unanswered. Based on various lines of evidence, the most likely mechanism seems to be the blockade of sympathetic ganglion caused by the alkaloids and it is possible that the effect on the slower heart rate may differ in the depressed state of the sympathetic ganglion when under halothane anesthesia. The present study was undertaken, therefore, on comatose patients and halothane anesthetized patients with and without atropine premedication about 1 hour before anesthesia to observe the effect of a small dose of scopolamine(0.1 mg) which affects the heart rate more significantly than atropine in conscious subjects. The results were as follows: 1) In the comatose patients, scopolamine(0.1 mg) produced a significant decrease in heart rate. 2) During halothane anesthesia without atropine premedication, scopolamine produced a slight decrease in heart rate. 3) During halothane anesthesia with atropine premedication, scopolamine produced a significant increase in the heart rate. These results indicate that scopolamine can further affect the sympathetic ganglion already depressed by halothane, and it is suggested that scopolamine is more effective in blocking the sympathetic ganglion than halothane.
Alkaloids ; Anesthesia ; Atropa belladonna ; Atropine ; Coma ; Ganglia, Sympathetic ; Halothane* ; Heart Rate* ; Heart* ; Humans ; Premedication ; Scopolamine Hydrobromide*

Atropa belladonna seedlings were used as experimental materials and cultivated by soil culture method. Different concentrations(0,0.05,0.1,0.2,0.5 mmol·L~(-1))of NO donor sodium nitroprusside(SNP) were sprayed on the leaves. The effects of different concentrations of SNP and different treatment time(4,8,12,16 d) on nitrogen metabolism, secondary metabolite content, precursor content of tropane alkaloid synthesis pathway and expression of key enzyme genes under 100 mmol·L~(-1) NaCl stress were studied. The results showed that with the prolongation of salt stress, the nitrogen metabolism and the accumulation of secondary metabolites of A. belladonna were inhibited to some extent. After treatment with different concentrations of exogenous SNP, the ammonium nitrogen content decreased dramatically, and the contents of nitrate nitrogen, free amino acid, soluble protein and the activities of key enzymes of nitrogen metabolism(NR, GS, GDH) were all greatly improved; the contents of precursor amino acids(ornithine, arginine) and polyamines(Put, Spd, Spm) in the secondary metabolic pathway have increased to varying degrees. The qRT-PCR analysis showed that exogenous SNP treatment can effectively promote the high expression of key enzyme genes PMT, TRⅠ and H6H in the secondary metabolic pathway of A. belladonna, and the production of hyoscyamine and scopolamine were increased notably. In summary, the application of appropriate concentration of SNP can effectively alleviate the inhibition of salt stress on the nitrogen metabolism and secondary metabolism of Atropa belladonna, and enhance its salt tolerance. Overall, 0.1 mmol·L~(-1) and 0.2 mmol·L~(-1) SNP treatment achieved the most remarkable effect.
Atropa belladonna/metabolism* ; Hyoscyamine/analysis* ; Nitrogen/metabolism* ; Nitroprusside ; Scopolamine/analysis* ; Secondary Metabolism ; Sodium Chloride ; Stress, Physiological

This study was conducted to determine how much of a residua1 accommodation remained one hour after three instillations of atropine or homatropine in 384 eyes of younger Koreans. The amount of residual accommodation was measured by the blur point method, and the following results were obtained. 1) The average amount of the residual accommodation was 0.96 D under l% atropine and 1.42 D under 5% homatropine. 2) In comparing the two cycloplegic agents, 1% atropine was found to be more effective than 5% homatropine. 3) Residual accommodation under l% atropine and 5% homatropine showed gradually decrease in older patients. 4) No sex difference was found.
Accommodation, Ocular/*drug effects ; Adolescent ; Adult ; Atropa belladonna/*pharmacology ; Atropine/*pharmacology ; Child ; Female ; Human ; Korea ; Male ; *Plants, Medicinal ; *Plants, Toxic

Hyoscyamine and scopolamine are two main alkaloids in Atropa belladonna with great medicinal value. In this paper, the contents of hyoscyamine and scopolamine, the upstream products in alkaloid synthesis, and the expression levels of key enzyme genes PMT, TRⅠ and H6H in secondary metabolism of A. belladonna seedlings were measured to clarify the mechanism of nitrogen forms regulating alkaloids synthesis.The results showed that the 50/50 (NH⁺₄/NO⁻₃) treatment was more favorable for the accumulation of alkaloids and the conversion of hyoscyamine to scopolamine. The content of putrescine was almost consistent with the change of key enzymes activities in the synthesis of putrescine, they both increased with the rise of ammonium ratio, reaching the highest at 75/25 (NH⁺₄/NO⁻₃). The detection of signaling molecule nitric oxide (NO) showed that the NO concentration decreased with the decrease of nitrate proportion. Further detection of gene expression levels of PMT, TRⅠ and H6H in TAs synthesis pathway showed that a certain amount of ammonium promoted the expression of PMT and H6H in roots. When the ratio of ammonium to nitrate was 50/50, PMT, TRⅠ and H6H in leaves and roots had higher expression levels. It can be speculated that the regulation of the formation of hyoscyamine to scopolamine by nitrogen forms mainly through affecting the expression of key enzyme genes. 50/50 (NH⁺₄/NO⁻₃) treatment increased the gene expression of TRⅠ in both leaves and roots as well as PMT and H6H in roots, promoting the synthesis of putrescine to hyoscyamine and the conversion of hyoscyamine to scopolamine.
Atropa belladonna ; enzymology ; genetics ; Gene Expression Regulation, Plant ; Hyoscyamine ; biosynthesis ; Mixed Function Oxygenases ; Nitrogen ; metabolism ; Scopolamine ; metabolism

Belladonna drugs dilate the pupil and paralyze accomodation after either local or systemic administration. Conventional systemic doses of atropine (0.5-0.6 mg) have little ocular effect, but with larger doses ocular effects develop. We experienced one case where a 30 year old healthy male patient developed mydriasis and cycloplegia of unknown origin on both eyes after general anesthesia for removal of intracerebral hematoma of left superficial parietal area. The symptoms disappeared spontaneously 11 days after the operation without any treatment. During the operation, the vital signs were stable, there was no sign of increased intracerebral pressure or rebleeding, and there was no abnormal ophthalmic findings. We could not find any definite causes of mydriasis and cycloplegia in this case, except that the patient received large doses of belladonna drugs during the anesthesia, such as Robinul 0.2 mg IM as premedicant, atropine 0.5 mg IV for treatment of bradycardia, and Robinul 0.2 mg IV for reversal of muscle relaxation with neostigmine 1.0 mg. Careful examination of all the circumstances would not let us exclude the possibility that the cause was atropine and robinul.
Adult ; Anesthesia ; Anesthesia, General* ; Atropa belladonna ; Atropine ; Bradycardia ; Hematoma ; Humans ; Intracranial Pressure ; Linear Energy Transfer ; Male ; Muscle Relaxation ; Mydriasis* ; Neostigmine ; Pupil ; Rabeprazole ; Vital Signs

PURPOSE: The authors report a case of bilateral simultaneous acute angle closure attack following administration of an over-the-counter common cold medication (ingredients: chlorpheniramine maleate, phenylephrine hydrochloride, and belladonna alkaloid). CASE SUMMARY: A 67-year-old man visited the emergency room with a sudden onset of bilateral blurred vision and ocular pain accompanied by headache, nausea, and vomiting. He had taken an over-the-counter common cold medication three times per day for three days before the visit. His visual acuity was 0.3 and 0.7 and intraocular pressure (IOP) was 50 mm Hg and 40 mm Hg in right and left eye, respectively. The refraction in manifest refractive test was +0.75 D sph = -0.75 D cyl x 100 in right eye and +1.25 D sph = -1.25 D cyl x 80 in left eye. The anterior chamber depth was three times the corneal thickness in center and less than 1/4 of the corneal thickness in periphery in both eyes on van Herick method. The angles of both eyes were closed on gonioscopy. He was treated with ocular hypotensive medication and miotics followed by withdrawal of common cold medications. After 10 days, bilateral neodymium-doped yttrium aluminium garnet (Nd:YAG) laser peripheral iridotomies were done. During four months of follow-up, there was no recurrence of angle closure attack, and normal IOP was maintained without glaucoma medications. CONCLUSIONS: Common cold medications which are easily accessible can induce acute angle closure attack in those who are predisposed to develop angle closure attacks, hence attention must be taken in those people when taking common cold medications.
Aged ; Anterior Chamber ; Atropa belladonna ; Chlorpheniramine ; Common Cold* ; Emergency Service, Hospital ; Follow-Up Studies ; Glaucoma ; Gonioscopy ; Headache ; Humans ; Intraocular Pressure ; Miotics ; Nausea ; Phenylephrine ; Recurrence ; Visual Acuity ; Vomiting ; Yttrium

Transgenic Atropa belladonna with high levels of scopolamine was developed by metabolic engineering. A functional gene involved in the rate limiting enzyme of h6h involved in the biosynthetic pathway of scopolamine was over expressed in A. belladonna via Agrobacterium-mediation. The transgenic plants were culturing till fruiting through micropropogating and acclimating. The integration of the h6h genes into the genomic DNA of transgenic plants were confirmed by genomic polymerase chain reaction (PCR) analysis. Analysis of the difference of plant height, crown width, stem diameter, leaf length, leaf width, branch number and fresh weight was carried out using SPSS software. The content of hyoscyamine and scopolamine in roots, stems, leaves and fruits was determined by HPLC. The investigation of the expression levels of Hnh6h by qPCR. Both Kan(r) and Hnh6h genes were detected in five transgenic lines of A. belladonna plants (A8, A11, A12, C8 and C19), but were not detected in the controls. The plant height, crown width, stem diameter, leaf length, leaf width, branch number and fresh weight of transgenic plants did not decrease by comparison with the non-transgenic ones, and furthermore some agronomic characters of transgenic plants were better than those of the controls. The highest level of scopolamine was found in leaves of transgenic A. belladonna, and the content of scopolamine was also higher than that of hyoscyamine in leaves. The contents of scopolamine of leaves in different transgenic lines were listed in order: C8 > A12 > C19 > A11 > A8, especially, the content of scopolamine in transgenic line C8 was 2.17 mg x g(-1) DW that was 4.2 folds of the non-transgenic ones (0.42 mg x g(-1) DW). The expression of transgenic Hnh6h was detected in all the transgenic plants but not in the control. The highest level of Hnh6h expression was found in transgenic leaves. Overexpression of Hnh6h is able to break the rate limiting steps involved in the downstream pathway of scopolamine biosynthesis, and thus promotes the metabolic flux flowing toward biosynthesis of scopolamine to improve the capacity of scopolamine biosynthesis in transgenic plants. As a result, transgenic plants of A. belladonna with higher level of scopolamine were developed.
Atropa belladonna ; genetics ; metabolism ; Atropine ; metabolism ; Gene Expression ; Mixed Function Oxygenases ; genetics ; metabolism ; Plant Proteins ; genetics ; metabolism ; Plants, Genetically Modified ; genetics ; metabolism ; Scopolamine Hydrobromide ; metabolism ; Solanaceae ; enzymology ; genetics

Atropa belladonna is a medicinal plant and main commercial source of tropane alkaloids (TAs) including scopolamine and hyoscyamine, which are anticholine drugs widely used clinically. Based on the high throughput transcriptome sequencing results, the digital expression patterns of UniGenes representing 9 structural genes (ODC, ADC, AIH, CPA, SPDS, PMT, CYP80F1, H6H, TRII) involved in TAs biosynthesis were constructed, and simultaneously expression analysis of 4 released genes in NCBI (PMT, CYP80F1, H6H, TRII) for verification was performed using qPCR, as well as the TAs contents detection in 8 different tissues. Digital expression patterns results suggested that the 4 genes including ODC, ADC, AIH and CPA involved in the upstream pathway of TAs, and the 2 branch pathway genes including SPDS and TRII were found to be expressed in all the detected tissues with high expression level in secondary root. While the 3 TAs-pathway-specific genes including PMT, CYP80F1, H6H were only expressed in secondary roots and primary roots, mainly in secondary roots. The qPCR detection results of PMT, CYP80F1 and H6H were consistent with the digital expression patterns, but their expression levels in primary root were too low to be detected. The highest content of hyoscyamine was found in tender stems (3.364 mg x g(-1)), followed by tender leaves (1.526 mg x g(-1)), roots (1.598 mg x g(-1)), young fruits (1.271 mg x g(-1)) and fruit sepals (1.413 mg x g(-1)). The highest content of scopolamine was detected in fruit sepals (1.003 mg x g(-1)), then followed by tender stems (0.600 mg x g(-1)) and tender leaves (0.601 mg x g(-1)). Both old stems and old leaves had the lowest content of hyoscyamine and scopolamine. The gene expression profile and TAs accumulation indicated that TAs in Atropa belladonna were mainly biosynthesized in secondary root, and then transported and deposited in tender aerial parts. Screening Atropa belladonna secondary root transcriptome database will facilitate unveiling the unknown enzymatic reactions and the mechanisms of transcriptional control.
Alkaloids ; biosynthesis ; genetics ; metabolism ; Atropa belladonna ; genetics ; metabolism ; Gene Expression Regulation, Plant ; genetics ; Hyoscyamine ; genetics ; metabolism ; Plants, Medicinal ; genetics ; metabolism ; Scopolamine Hydrobromide ; metabolism ; Tropanes ; metabolism

Hyoscyamine and scopolamine are important secondary metabolites of tropane alkaloid in Atropa belladonna with pharmacological values in many aspects.In this study, the seedlings of A.belladonna were planted by soil culture and treated with different concentrations of methyl jasmonate (MeJA). The contents of hyoscyamine and scopolamine,the upstream products in alkaloid synthesis,and the expression levels of key enzyme genes PMT, TR Ⅰ and H6H in secondary metabolites of A. belladonna seedlings were measured to clarify the mechanism of MeJA regulating alkaloids synthesis.The results showed that MeJA(200 μmol·L⁻¹) treatment was more favorable for the accumulation of alkaloids.The content of putrescine was almost consistent with the change of key enzymes activities in the synthesis of putrescine,the both increased first and then decreased with the increased MeJA concentration and the content of putrescine reached the highest at 200 μmol·L⁻¹ MeJA.Further detection of gene expression of PMT, TR Ⅰ and H6H in TAs synthesis pathway showed that no significant trend in PMT gene expression levels.The expression levels of TR Ⅰ and H6H in leaves and roots under 200 μmol·L⁻¹ MeJA were the highest.It can be speculated that the regulation of the formation of hyoscyamine and scopolamine by MeJA mainly through affecting the expression of key enzyme genes.Appropriate concentration of MeJA increased the gene expression of TR Ⅰ in both leaves and roots as well as H6H in roots,promoting the accumulation of alkaloids and the conversion of hyoscyamine to scopolamine.
Acetates ; pharmacology ; Atropa belladonna ; drug effects ; genetics ; metabolism ; Cyclopentanes ; pharmacology ; Gene Expression Regulation, Plant ; Hyoscyamine ; metabolism ; Oxylipins ; pharmacology ; Plant Leaves ; metabolism ; Plant Roots ; metabolism ; Scopolamine ; metabolism