Nanoparticle-based inhibition of vascular endothelial growth factor receptors alleviates osteoarthritis pain and cartilage damage.

Osteoarthritis (OA) is characterized by cartilage damage, inflammation, and pain. Vascular endothelial growth factor receptors (VEGFRs) have been associated with OA severity, suggesting that inhibitors targeting these receptors alleviate pain (via VEGFR1) or cartilage degeneration (via VEGFR2). We have developed a nanoparticle-based formulation of pazopanib (Votrient), an FDA-approved anticancer drug that targets both VEGFR1 and VEGFR2 (Nano-PAZII). We demonstrate that a single intraarticular injection of Nano-PAZII can effectively reduce joint pain for a prolonged time without substantial side effects in two different preclinical OA rodent models involving either surgical (upon partial medial meniscectomy) or nonsurgical induction (with monoiodoacetate). The injection of Nano-PAZII blocks VEGFR1 and relieves OA pain by suppressing sensory neuronal ingrowth into the knee synovium and neuronal plasticity in the dorsal root ganglia and spinal cord. Simultaneously, the inhibition of VEGFR2 reduces cartilage degeneration. These findings provide a mechanism-based disease-modifying drug strategy that addresses both pain symptoms and cartilage loss in OA.

A PDK-1 allosteric agonist improves spatial learning and memory in a ßAPP/PS-1 transgenic mouse-high fat diet intervention model of Alzheimer's disease.

Diabetes mellitus (DM), peripheral insulin resistance (IR) and obesity are clear risk factors for Alzheimer's disease. Several anti-diabetic drugs and insulin have been tested in rodents and humans with MCI or AD, yielding promising but inconclusive results. The PDK-1/Akt axis, essential to the action of insulin, has not however been pharmacologically interrogated to a similar degree. Our previous cell culture and in vitro studies point to such an approach. Double transgenic APPsw/PSENdE9 mice, a model for Alzheimer's disease, were used to test the oral administration of PS48, a PDK-1 agonist, on preventing the expected decline in learning and memory in the Morris Water Maze (MWM). Mice were raised on either standard (SD) or high fat (HFD) diets, dosed beginning 10 months age and tested at an advanced age of 14 months. PS48 had positive effects on learning the spatial location of a hidden platform in the TG animals, on either SD or HFD, compared to vehicle diet and WT animals. On several measures of spatial memory following successful acquisition (probe trials), the drug also proved significantly beneficial to animals on either diet. The PS48 treatment-effect size was more pronounced in the TG animals on HFD compared to on SD in several of the probe measures. HFD produced some of the intended metabolic effects of weight gain and hyperglycemia, as well as accelerating cognitive impairment in the TG animals. PS48 was found to have added value in modestly reducing body weights and improving OGTT responses in TG groups although results were not definitive. PS48 was well tolerated without obvious clinical signs or symptoms and did not itself affect longevity. These results recommend a larger preclinical study before human trial.

Intravenously Administered Ganaxolone Blocks Diazepam-Resistant Lithium-Pilocarpine-Induced Status Epilepticus in Rats: Comparison with Allopregnanolone.

Ganaxolone (GNX) is the 3ß-methylated synthetic analog of the naturally occurring neurosteroid, allopregnanolone (ALLO). GNX is effective in a broad range of epilepsy and behavioral animal models and is currently in clinical trials designed to assess its anticonvulsant and antidepressant activities. The current studies were designed to broaden the anticonvulsant profile of GNX by evaluating its potential anticonvulsant activities following i.v. administration in treatment-resistant models of status epilepticus (SE), to establish a pharmacokinetic (PK)/pharmacodynamic (PD) relationship, and to compare its PK and anticonvulsant activities to ALLO. In PK studies, GNX had higher exposure levels, a longer half-life, slower clearance, and higher brain penetrance than ALLO. Both GNX and ALLO produced a sedating response as characterized by loss of righting reflex, but neither compound produced a full anesthetic response as animals still responded to painful stimuli. Consistent with their respective PK properties, the sedative effect of GNX was longer than that of ALLO. Unlike other nonanesthetizing anticonvulsant agents indicated for SE, both GNX and ALLO produced anticonvulsant activity in models of pharmacoresistant SE with administration delay times of up to 1 hour after seizure onset. Again, consistent with their respective PK properties, GNX produced a significantly longer anticonvulsant response. These studies show that GNX exhibited improved pharmacological characteristics versus other agents used as treatments for SE and position GNX as a uniquely acting treatment of this indication.

A Mouse Model of Furosemide-Induced Overactive Bladder.

Detailed in this unit is a mouse model of overactive bladder and urinary incontinence based on diuretic stress-induced urination. The procedure involves the use of a unique, highly sensitive, and automated urine capturing method to measure urinary latency, frequency, and void volume. Although this method was first described and validated using an anti-muscarinic drug used for treating overactive bladder, subsequent work has shown that effective non-cholinergic agents can be detected. These findings indicate good predictive value for this model regarding the possible clinical utility of test agents as treatments for overactive bladder, regardless of their site of action. © 2016 by John Wiley & Sons, Inc.

Discovery of 7-arylsulfonyl-1,2,3,4, 4a,9a-hexahydro-benzo[4,5]furo[2,3-c]pyridines: identification of a potent and selective 5-HT6 receptor antagonist showing activity in rat social recognition test.

Serotoninergic neurotransmission has been implicated in modulation of learning and memory. It has been demonstrated that 5-hydroxytryptamine(6) (5-HT(6)) receptor antagonists show beneficial effect on cognition in several animal models. Based on a pharmacophore model reported in the literature, we have designed and successfully identified a 7-benzenesulfonyl-1,2,3,4-tetrahydro-benzo[4,5]furo[2,3-c]pyridine (3a) scaffold as a novel class of 5-HT(6) receptor antagonists. Despite good activity against 5-HT(6) receptor, 3a exhibited poor liver microsome stability in mouse, rat and dog. It was demonstrated that the saturation of the double bond of the tetrahydropyridine ring of 3a enhanced metabolic stability. However the resulting compound, 4a (7-phenylsulfonyl-1,2,3,4,4a,9a-hexahydro-benzo[4,5]furo[2,3-c] pyridine-HCl salt) exhibited ∼30-fold loss in potency along with introduction of two chiral centers. In our optimization process for this series, we found that substituents at the 2 or 3 positions on the distal aryl group are important for enhancing activity against 5-HT(6). Separation of enantiomers and subsequent optimization and SAR with bis substituted phenyl sulfone provided potent 5-HT(6) antagonists with improved PK profiles in rat. A potent, selective 5-HT(6)R antagonist (15k) was identified from this study which showed good oral bioavailability (F=39%) in rat with brain penetration (B/P=2.76) and in vivo activity in a rat social recognition test.

Novel brain penetrant benzofuropiperidine 5-HT6 receptor antagonists.

7-Arylsulfonyl substituted benzofuropiperidine was discovered as a novel scaffold for 5HT(6) receptor antagonists. Optimization by substitution at C-1 position led to identification of selective, orally bioavailable, brain penetrant antagonists with reduced hERG liability. An advanced analog tested in rat social recognition model showed significant activity suggesting potential utility in the enhancement of short-term memory.

Social recognition assay in the rat.

Neuropsychiatric disorders encompass a broad patient population in a variety of disease states across all age groups and are often accompanied by deficits in short-term/working memory. However, most preclinical models that allow for an assessment of cognitive enhancement do not provide robust behavioral readouts with a level of throughput sufficient to support modern drug discovery efforts. The rat social recognition assay presented in this unit is one exception that has been increasingly employed to test new chemical entities for enhancing cognitive activity. The test is simple in design and takes advantage of the spontaneous behavior of rats to investigate conspecifics. The protocol in this unit is designed to evaluate the effects of a test substance on the short-term/working memory of adult male rats employing 30-min or 2-hr pretreatment times.

Novel object recognition in the rat: a facile assay for cognitive function.

The rat novel object recognition (NOR) assay is a relatively high-throughput, robust, and sensitive procedure for evaluating compounds for cognition-enhancing activity. For the test, rats are given the opportunity to explore two identical objects for a predetermined period of time. After a delay, the animals are then presented with two objects to explore, one of which is the same as in the first exploration trial, the other a new object. Depending on the length of the delay between the two trials, the rats will either explore the novel object for a greater time period, indicating memory for the familiar object, or will explore the novel and familiar objects for the same amount of time, indicating a lack of recall or loss of memory for the familiar object presented during the initial trial. The protocol described in this unit can be used to evaluate the effects of a compound on the short-term/working memory of adult male rats following a 24-hr inter-trial interval.

Dimebolin is a 5-HT6 antagonist with acute cognition enhancing activities.

Dimebolin (Dimebon), is a non-selective antihistamine approved in Russia for the treatment of allergy. Recently, this drug has been shown to be neuroprotective in cellular models of Alzheimer's disease and Huntington's disease, and to preserve cognitive function when chronically administered to AF64A lesioned rats. Interests in identifying the molecular targets of dimebolin have intensified with reports of efficacy in clinical trials with Alzheimer's patients. Dimebolin has been found to interact with a number of molecular targets including acetylcholinesterases, N-methyl-d-aspartate receptors, and voltage-gated calcium channels, with potencies in the range of 5-50 microM. In the present study, the action of dimebolin at the serotonin 5-HT(6) receptor was investigated. Dimebolin binds with moderate affinity to both the human and rat recombinant 5-HT(6) receptor (K(i)=26.0+/-2.5 nM and 119.0+/-14.0 nM respectively) as well as the native rat 5-HT(6) receptor, and acts as an antagonist in functional cAMP assays. Furthermore, dimebolin occupies the 5-HT(6) receptor in vivo as assessed by ex vivo autoradiography, with a dose-occupancy relationship similar to that of the selective 5-HT(6) antagonist SB-399885. Finally, both SB-399885 and dimebolin produce an acute enhancement of short-term social recognition memory, although dimebolin is approximately 10-fold less potent than SB-399885. Taken together, these studies demonstrate that dimebolin antagonizes the 5-HT(6) receptor with higher affinity than other targets characterized to date, and suggest that this activity may play a role in the acute cognition enhancing effects of this compound in preclinical models and in the clinic.