The ameliorative role of Physalis pubescens L. against neurological impairment associated with streptozotocin induced diabetes in rats.

Neuropathy is considered a critical complication of diabetes mellitus (DM). Scientific studies are needed to relieve these painful complications. The current study aims to estimate the ameliorative role of Physalis juice (PJ) against neurological impairment in streptozotocin (STZ)-induced diabetic rats. Type 1 DM was induced after one week of injecting rats with 55 mg STZ/kg body weight. PJ-treated rats were orally administered 5 ml PJ/kg body weight per day for 28 days after induction of diabetes. A small piece of the cerebral cortex of rats was fixed and used for histopathological investigations. The remaining portion of the cerebral cortex was homogenized for biochemical and molecular analyses. As compared to the controls, STZ-injected rats showed significant elevations in the levels of blood glucose, tumor necrosis factor alfa, interleukin-1ß, malondialdehyde, nitric oxide, and expression levels of caspase-3 and B-cell lymphoma-2 associated X-protein. Additionally, remarkable declines in the levels of brain-derived neurotrophic factor, monoamines, B-cell lymphoma-2, glutathione, as well as the activities and gene expression levels of superoxide dismutase, catalase, glutathione peroxidase, and glutathione reductase in STZ-treated rats were reported. Moreover, some histopathological alterations were observed in the brain cortex of the STZ-treated rats. On the other hand, the administration of PJ substantially reduced the blood glucose and alleviated the above-mentioned alterations in all the studied parameters of the cerebral cortex. In conclusion, an oral administration of 5 ml PJ/kg revealed a neuroprotective action against neurodegenerative diabetes-induced complications in rats, which might be due to the reported antioxidative and anti-inflammatory actions of PJ. Thus, further therapeutic studies are recommended to apply PJ in the treatment regimen of diabetes.

Bioactive compounds induced in Physalis angulata L. by methyl-jasmonate: an investigation of compound accumulation patterns and biosynthesis-related candidate genes.

KEY MESSAGE: We employed both metabolomic and transcriptomic approaches to explore the accumulation patterns of physalins, flavonoids and chlorogenic acid in Physalis angulata and revealed the genes associated with the biosynthesis of bioactive compounds under methyl-jasmonate (MeJA) treatment. Physalis angulata L. is an annual Solanaceae plant with a number of medicinally active compounds. Despite the potential pharmacological benefits of P. angulata, the scarce genomic information regarding this plant has limited the studies on the mechanisms of bioactive compound biosynthesis. To facilitate the basic understanding of the main chemical constituent biosynthesis pathways, we performed both metabolomic and transcriptomic approaches to reveal the genes associated with the biosynthesis of bioactive compounds under methyl-jasmonate (MeJA) treatment. Untargeted metabolome analysis showed that most physalins, flavonoids and chlorogenic acid were significantly upregulated. Targeted HPLC-MS/MS analysis confirmed variations in the contents of two important representative steroid derivatives (physalins B and G), total flavonoids, neochlorogenic acid, and chlorogenic acid between MeJA-treated plants and controls. Transcript levels of a few steroid biosynthesis-, flavonoid biosynthesis-, and chlorogenic acid biosynthesis-related genes were upregulated, providing a potential explanation for MeJA-induced active ingredient synthesis in P. angulata. Systematic correlation analysis identified a number of novel candidate genes associated with bioactive compound biosynthesis. These results may help to elucidate the regulatory mechanism underlying MeJA-induced active compound accumulation and provide several valuable candidate genes for further functional study.

Comparative Metabolomic and Proteomic Analyses Reveal the Regulation Mechanism Underlying MeJA-Induced Bioactive Compound Accumulation in Cutleaf Groundcherry ( Physalis angulata L.) Hairy Roots.

Cutleaf groundcherry ( Physalis angulata L.) is an annual plant with a number of medicinal ingredients. However, studies about the secondary metabolism of P. angulata are very limited. An integrated metabolome and proteome approach was used to reveal the variations in the metabolism associated with bioactive compounds under methyl-jasmonate (MeJA) treatment. Application of MeJA to the hairy roots could significantly increase the accumulation of most active ingredients. A targeted approach confirmed the variations in physalins D and H between MeJA treatment and the controls. Increases in the levels of a number of terpenoid backbone biosynthesis and steroid biosynthesis related enzymes, cytochrome P450 monooxygenases and 3ß-hydroxysterioid dehydrogenase might provide a potential explanation for the MeJA-induced active ingredient synthesis. Our results may contribute to a deeper understanding of the regulation mechanism underlying the MeJA-induced active compound accumulation in P. angulata.

Actividad inmunoestimulante del extracto acuoso liofilizado de la planta entera de Physalis angulata L. en ratas albinas cepa Holtzman / Immunoestimulant activity of Physalis angulata L whole plant-lyophilized aqueous extract in albino Holtzman rats

Objetivo: Evaluar la actividad inmunoestimulante del extracto acuoso liofilizado (EAL) de la planta entera de Physalis angulata L. "bolsa mullaca". Materiales y Métodos: Se usaron 32 ratas albinas divididas en cuatro grupos: agua destilada 3 mL (control); Metisopinol (Isoprinosine) 14.7 mg/Kg; EAL Physalis angulata L. 8.6 mg/Kg; y EAL Physalis angulata L. 17.2 mg/Kg. El modelo de inmunoestimulación usado fue el de Delaveau y col. Se midió el porcentaje de linfocitos, neutrófilos segmentados; porcentaje de activación de la respuesta del sistema inmune (%ARSI) y absorbancia basal y a la 1h, 3h, 6h y 24 h después de las intervenciones. Resultados: Se encontraron diferencias significativas en los valores de absorbancias cuando se realizó la comparación de todos los grupos de experimentación con el grupo control (p<0.001). Los grupos Physalis angulata 8.6 mg /Kg y Physalis angulata 17.2 mg/Kg presentaron sus %ARSI más altos a las seis horas de exposición (50.45% y 58.79% respectivamente). Los porcentajes de linfocitos y neutrófilos segmentados en los grupos Isoprinosine 14.7 mg/Kg, P. angulata 8.6 mg/kg, P. angulata 17.2 mg/kg fueron significativamente diferentes en comparación con los controles a las 3h, 6h y 24h de intervención. Conclusión: El EAL de Physalis angulata L, a dosis de 17.2 mg/Kg mostró la mejor actividad inmunoestimulante, siendo quien más se acercó al efecto del Isoprinosine 14.7 mg/Kg.

Evaluation of antidesmone alkaloid as a photosynthesis inhibitor.

Antidesmone, isolated from Waltheria brachypetala Turcz., owns special structural features as two α,ß-unsaturated carbonyl groups and a side alkyl chain that can compete with the quinones involved in the pool of plastoquinones at photosystem II (PSII). In this work, we showed that the alkaloid is an inhibitor of Hill reaction and its target was located at the acceptor side of PSII. Studies of chlorophyll (Chl) a fluorescence showed a J-band that indicates direct action of antidesmone in accumulation of QA- (reduced plastoquinone A) due to the electron transport blocked at the QB (plastoquinone B) level similar to DCMU. In vivo assays indicated that antidesmone is a selective post-emergent herbicide probe at 300µM by reducing the biomass production of Physalis ixacarpa plants. Furthermore, antidesmone also behaves as pre-emergent herbicide due to inhibit Physalis ixacarpa plant growth about 60%. Antidesmone, a natural product containing a 4(1H)-pyridones scaffold, will serve as a valuable tool in further development of a new class of herbicides.

Invasion Potential of Two Tropical Physalis Species in Arid and Semi-Arid Climates: Effect of Water-Salinity Stress and Soil Types on Growth and Fecundity.

Invasive plants are recognized for their impressive abilities to withstand adverse environmental conditions however, all invaders do not express the similar abilities. Therefore, survival, growth, nutrient uptake and fecundity of two co-occurring, invasive Physalis species were tested under water and salinity stresses, and different soil textures in the current study. Five different water stress levels (100, 75, 50, 25, and 12.5% pot water contents), four different soil salinity levels (0, 3, 6, and 12 dSm-1) and four different soil textures (67% clay, 50% clay, silt clay loam and sandy loam) were included in three different pot experiments. Both weeds survived under all levels of water stress except 12.5% water contents and on all soil types however, behaved differently under increasing salinity. The weeds responded similarly to salinity up till 3 dSm-1 whereas, P. philadelphica survived for longer time than P. angulata under remaining salinity regimes. Water and salinity stress hampered the growth and fecundity of both weeds while, soil textures had slight effect. Both weeds preferred clay textured soils for better growth and nutrient uptake however, interactive effect of weeds and soil textures was non-significant. P. angulata accumulated higher K and Na while P. philadelphica accrued more Ca and Mg as well as maintained better K/Na ratio. P. angulata accumulated more Na and P under salinity stress while, P. philadelphica accrued higher K and Mg, and maintained higher K/Na ratio. Collectively, highest nutrient accumulation was observed under stress free conditions and on clay textured soils. P. philadelphica exhibited higher reproductive output under all experimental conditions than P. angulata. It is predicted that P. philadelphica will be more problematic under optimal water supply and high salinity while P. angulata can better adapt water limited environments. The results indicate that both weeds have considerable potential to further expand their ranges in semi-arid regions of Turkey.

Mexican propolis flavonoids affect photosynthesis and seedling growth.

As a continuous effort to find new natural products with potential herbicide activity, flavonoids acacetin (1), chrysin (2) and 4',7-dimethylnarangenin (3) were isolated from a propolis sample collected in the rural area of Mexico City and their effects on the photosynthesis light reactions and on the growth of Lolium perenne, Echinochloa crus-galli and Physalis ixocarpa seedlings were investigated. Acacetin (1) acted as an uncoupler by enhancing the electron transport under basal and phosphorylating conditions and the Mg(2+)-ATPase. Chrysin (2) at low concentrations behaved as an uncoupler and at concentrations up to 100 µM its behavior was as a Hill reaction inhibitor. Finally, 4',7-dimethylnarangenin (3) in a concentration-dependent manner behaved as a Hill reaction inhibitor. Flavonoids 2 and 3 inhibited the uncoupled photosystem II reaction measured from water to 2,5-dichloro-1,4-benzoquinone (DCBQ), and they did not inhibit the uncoupled partial reactions measured from water to sodium silicomolybdate (SiMo) and from diphenylcarbazide (DPC) to diclorophenol indophenol (DCPIP). These results indicated that chrysin and 4',7-dimethylnarangenin inhibited the acceptor side of PS II. The results were corroborated with fluorescence of chlorophyll a measurements. Flavonoids also showed activity on the growth of seedlings of Lolium perenne and Echinochloa crus-galli.

[Effect of NaCl stress on physiological characteristics of Physalis alkekengi var. franchetii test-tube plantlet].

OBJECTIVE: To investigate the effect of NaCl stress on the growth and physiological characteristics of Physalis alkekengi var. franchetii, and to discuss the mechanism of salt tolerance. METHODS: The test-tube plantlet was cultured on the stress medium with NaCl (0.2%~1.0%), the content of proline, soluble sugar, soluble protein, chlorophyll and malondialdthyde (MDA), and membrane relative permeability, as well as the activities of superoxide dismutase (SOD), catalase (CAT) and peroxidase (POD) were determined and analyzed. RESULTS: The average height, stem diameter, root length, number of root and chlorophyll content gradually decreased at salinity less than or equal 0.6% NaCl, then decreased rapidly at salinity greater than or equal 0.8% NaCl, while the root formation was significantly inhibited. The content of free proline and SOD activities always increased with NaCl concentration increasing (0.2%~ 1.0%). Nevertheless, the contents of soluble sugar, soluble protein and the activities of CAT and POD increased firstly and then decreased, but the contents of soluble sugar and soluble protein were higher than those of the control group, whereas the content of MDA and membrane relative permeability accumulated slowly at salinity less than or equal 0.6% NaCl, then increased rapidly at salinity greater than 0.8% NaCl. CONCLUSION: The test-tube plantlet has an adaptability to salty environment at salinity less than or equal 0.6% NaCl, and the test-tube plantlet can alleviate the salty injury by increasing the contents of osmotic regulation substances, such as soluble sugar and soluble protein, decreasing the osmotic potential, and increasing the activities of antioxidant enzymes.

Phytogrowth- and photosynthesis-inhibiting properties of nostoclide analogues.

Six nostoclide analogues were synthesised from 3-benzyl-2(5H)-furanone in one step, with yields ranging from 10 to 71%, and subjected to several biological assays. The two most active of these, 5d and 5e, were shown to be phytogrowth inhibitors of the radicle of Lolium multiflorum Lam, while enhancing the root growth of Physalis ixocarpa Brot. Both compounds inhibited electron flow (basal, phosphorylating and uncoupled) from water to methylviologen (MV); both acted as Hill reaction inhibitors, since the synthesis of ATP was prevented. The uncoupled electron transport from photosystem II (PSII) (water to 2,6-dichlorophenol-indophenol (DPIP)) and photosystem I (PSI) (2,6-dichlorophenol-indophenol reduced (DPIPred) to MV) was inhibited with 500 microM of 5d by 22 and 14% respectively. In addition, 400 microM of 5d inhibited PSI (from tetramethyl-p-benzohydroquinone (TMQH(2)) to MV) by 40%. Thus 5d inhibited electron transport at the b(6)f complex. Finally, 500 microM of 5e inhibited electron flow (basal and phosphorylating) by 25%, and 300 microM of 5e enhanced light-activated membrane-bound Mg(2+)-ATPase by 66%. Thus 5e behaved as a weak Hill reaction inhibitor and an uncoupler. In general, the phytotoxicity of the synthetic lactones was only weakly related to inhibition of photosynthesis.

Solasodine glycoside production by hairy root cultures of Physalis minima Linn.

Hairy root cultures of Physalis minima L. were developed using Agrobacterium rhizogenes, strain ATCC 15834 mediated transformation and grown in half strength of Murashige and Skoog medium containing 8% (w/v) sucrose. Media supplementation with 1 mg naphthalenacetic acid l(-1) and 1 mg benzyladenine increased solasodine glycoside up to 900 g dry wt, which was 20 times higher than that in the native root.