Nanjing Zhang scite author profile

Spinal muscular atrophy (SMA) is a genetic disease caused by mutation or deletion of the survival of motor neuron 1 (SMN1) gene. A paralogous gene in humans, SMN2, produces low, insufficient levels of functional SMN protein due to alternative splicing that truncates the transcript. The decreased levels of SMN protein lead to progressive neuromuscular degeneration and high rates of mortality. Through chemical screening and optimization, we identified orally available small molecules that shift the balance of SMN2 splicing toward the production of full-length SMN2 messenger RNA with high selectivity. Administration of these compounds to Δ7 mice, a model of severe SMA, led to an increase in SMN protein levels, improvement of motor function, and protection of the neuromuscular circuit. These compounds also extended the life span of the mice. Selective SMN2 splicing modifiers may have therapeutic potential for patients with SMA.

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Rotenone, Deguelin, Their Metabolites, and the Rat Model of Parkinson's Disease

Caboni

Sherer

Zhang

et al. 2004

Chem. Res. Toxicol.

179

207

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Rotenone and deguelin are the major active ingredients and principal components of cuberesin from Lonchocarpus utilis used as a botanical insecticide and piscicide. They are also potent complex I (NADH:ubiquinone oxidoreductase) inhibitors. Rotenone was known earlier, and deguelin is shown here to induce a Parkinson's disease (PD)-like syndrome after subcutaneous treatment of rats by osmotic minipump. Rotenone at 3 mg/kg/day or deguelin at 6 but not 3 mg/kg/day induces degeneration of the nigrostriatal dopaminergic pathway, as shown by reduced tyrosine hydroxylase immunoreactivity with treatments for 5 or 6 days. The neuropathological lesions are associated with a brain level of parent rotenoid of 0.4-1.3 ppm but not with the much smaller brain level of 12abeta-hydroxyrotenoids or other metabolites analyzed by HPLC and LC/MS. We previously established that the hydroxylated metabolites and derivatives of rotenone and deguelin are all less active (i.e., detoxified) as complex I inhibitors relative to the parent rotenoids. The PD-like syndrome induced in rats by rotenone and deguelin is therefore due to the parent compounds rather than metabolites. Deguelin is about half as active as rotenone in inducing the PD-like syndrome in rats and in acute ip LD50 in mice. Rotenone and deguelin are metabolized by human recombinant 3A4 and 2C19 but not five other P450 enzymes. 2C19 is more selective than 3A4 in forming the 12abeta-hydroxyrotenoids. Identified sites of metabolic attack individually or in combination are as follows: 12abeta hydroxylation and 2-O-demethylation of both compounds, oxidation of the rotenone isopropenyl substituent to mono and diol derivatives, and probable oxidation of the deguelin dimethylchromene double bond. These toxicological features must be considered in using rotenone, deguelin, and their analogues as pesticides, candidate radioimaging and cancer chemopreventive agents, and models of PD.

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The Neonicotinoid Electronegative Pharmacophore Plays the Crucial Role in the High Affinity and Selectivity for theDrosophilaNicotinic Receptor: An Anomaly for the Nicotinoid Cation−π Interaction Model

et al. 2003

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Cation-pi interaction, a prominent feature in agonist recognition by neurotransmitter-gated ion channels, does not apply to the anomalous action of neonicotinoids at the insect nicotinic acetylcholine receptor (nAChR). Insect-selective neonicotinoids have an electronegative pharmacophore (tip) in place of the ammonium or iminium cation of the vertebrate-selective nicotinoids, suggesting topological divergence of the agonist-binding sites in insect and vertebrate nAChRs. This study defines the molecular and electronic basis for the potent and selective interaction of the neonicotinoid electronegative pharmacophore with a unique subsite of the Drosophila but not of the vertebrate alpha4beta2 nAChR. Target site potency and selectivity are retained when the usual neonicotinoid N-nitroimine (=NNO(2)) electronegative tip is replaced with N-nitrosoimine (=NNO) or N-(trifluoroacetyl)imine (=NCOCF(3)) in combination with an imidazolidine, imidazoline, thiazolidine, or thiazoline heterocycle. X-ray crystallography establishes coplanarity between the heterocyclic and imine planes, including the electronegative substituent in the trans configuration. The functional tip is the coplanar oxygen atom of the N-nitrosoimine or the equivalent oxygen of the N-nitroimine. Quantum mechanics in the gas and aqueous phases fully support the conserved coplanarity and projection of the strongly electronegative tip. Further, a bicyclic analogue with a nitro tip in the cis configuration but retaining coplanarity has a high potency, whereas the N-trifluoromethanesulfonylimine (=NSO(2)CF(3)) moiety lacking coplanarity confers very low activity. The coplanar system between the electronegative tip and guanidine-amidine moiety extends the conjugation and facilitates negative charge (delta(-)) flow toward the tip, thereby enhancing interaction with the proposed cationic subsite such as lysine or arginine in the Drosophila nAChR.

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Nanjing Zhang

SMN2 splicing modifiers improve motor function and longevity in mice with spinal muscular atrophy

Rotenone, Deguelin, Their Metabolites, and the Rat Model of Parkinson's Disease

The Neonicotinoid Electronegative Pharmacophore Plays the Crucial Role in the High Affinity and Selectivity for theDrosophilaNicotinic Receptor: An Anomaly for the Nicotinoid Cation−π Interaction Model

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