Search for safer and potent natural inhibitors of Parkinson's disease.

After Alzheimer's disease, Parkinson's disease (PD) has taken second place in becoming one of the most commonly occurring neurological diseases being responsible for a number of disabling motor symptoms ranging from bradykinesia, akinesia, tremors to rigidity, that mostly targets the elderly population and severely disrupts their quality of life. The true underlying pathology of PD yet remains a mystery, however, recent advances in the field have pointed towards the production of α-synuclein aggregates, oxidative stress, and an imbalance between levels of acetylcholine and dopamine neurotransmitters in the brain that have been shown to result in loss of coordinated movement. Current treatments of PD include the gold standard dopamine precursor L-dopa, dopamine agonists pergolide and bromocriptine, catechol-o-methyl transferases inhibitors, entacapone and tolcapone and monoamine oxidase inhibitors such as Selegine and Rasagiline amongst several other drugs. While these drugs are successful in treating motor symptoms of the disease, they do so with a plethora of side effects that are especially debilitating to the elderly. In the recent years, a considerable amount of attention has been shifted towards phytocompounds such as flavonoids and green tea catechins due to promising experimental results. In this review, we have compiled phytocompounds that have shown potent activity against some of the most important targets for antiparkinsonian therapy. These compounds have exhibited activities that transcend the limits of simply attenuating mitochondrial oxidative stress and have opened doors to the discovery of novel lead compounds for newer, efficacious antiparkinsonian therapies with wider therapeutic windows.

[High throughput screening method of identifying D5 receptor agonist from Chinese herbs].

D5 receptor is a subtype of dopamine D1-like receptor, and it plays a functional role in many neurological disorders. Some natural compounds from Chinese herbs, which were shown to have the property as that of receptor agonist, might provide a rich source in search of new candidates for therapeutic use. For exploring this possibility, we developed a cell-based high throughput (HTS) D5 receptor assay to screen the herb-based natural compound library established in our centre. The D5 receptor plasmid (hD5R/pcDNA3.1) and reporter gene plasmid (4 x CRE/TK/Luci/pGL3) were co-transfected into HEK293 cell line. After G418 being selected, the monoclonal cell lines bearing hD5R and the reporter gene were established and used for agonist screening. To optimize the assay condition, the effects of some factors such as cell number per well, incubation time, and the doses of SKF38393 (a potent selective partial D1-like agonist) were examined by using forskolin, a positive compound for cAMP response element. The best condition for this HTS assay included: the cell number at 5 x 10(4)/mL, the dose of forskolin at 5-20 micromol/L, the dose of SKF38393 at 100 nmol/L-100 micromol/L, and the agonist incubation time at 6 -8 h. Thereafter, water extracts from more than 200 Chinese herbs in our library were screened and three of these water extracts showed positive activity, with higher or similar activity as SKF38393. In conclusion, we have established a cell-based HTS assay for D5 receptor agonist screening, and by use of this HTS assay, 3 Chinese herbs maybe contain components exhibiting D5 receptor agonist property. This work provides an alternative vision of how to use herb medicines and a way to develop potential drugs for treatment of neurological disorders.