Selective Small Molecule Peptidomimetic Ligands of TrkC and TrkA Receptors Afford Discrete or Complete Neurotrophic Activities

Zaccaro, Maria Clara; Lee, Hong Boon; Pattarawarapan, Mookda; Xia, Zebin; Caron, Antoine W.; L’Heureux, Pierrre-Jean; Bengio, Yoshua; Burgess, Kevin; Saragovi, H. Uri

doi:10.1016/j.chembiol.2005.06.015

Cited by 52 publications

(75 citation statements)

References 51 publications

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“…We therefore performed insulin competition assay using flow cytometry (9). CHO-IR cells were incubated with 100 nM FITC-insulin in the presence of DDN at different concentrations.…”

Section: Ddn and Csn Activate Ir And Insulin-mediated Signalingmentioning

confidence: 99%

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Chan

Liu

et al. 2011

Journal of Biological Chemistry

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Insulin exerts its actions through the insulin receptor (IR) and plays an essential role in diabetes. The inconvenient daily injection and undesirable side-effects associated with insulin injection demand novel drugs for the diseases. To search for bioactive insulin mimetics, we developed an in vitro screening assay using phospho-IR ELISA. After screening the small molecule chemical libraries, we have obtained a compound (5,8-diacetyloxy-2,3-dichloro-1,4-naphthoquinone) that provokes IR activation by directly binding to the receptor kinase domain to trigger its kinase activity at micromolar concentrations. This compound selectively activates IR but not other receptors and sensitizes insulin's action. Moreover, it elevates glucose uptake in adipocytes and has oral hypoglycemic effect in wild-type C57BL/6J mice and db/db and ob/ob mice without demonstrable toxicity. Hence, this promising compound mimics the biological functions of insulin and is useful for further drug development for diabetes treatment.Type 2 diabetes mellitus is a heterogeneous disease that results from defective insulin actions and secretions. Various pharmacological agents are used to improve glucose homeostasis via different modes of action: sulfonylureas stimulate insulin secretion, biguanides (e.g. metformin) promote glucose utilization and reduce hepatic-glucose production, ␣-glucosidase inhibitors (e.g. acarbose) slow down carbohydrate absorption from the gut, and thiazolidinediones enhance cellular insulin action on glucose metabolism (1). Insulin replacement therapy is also needed when insulin production declines in the patients with poor glycemic control (2). In recent years, treatment strategies have focused on the development of novel therapeutic options to substitute insulin therapy. Several small compounds like demethylasterriquinone-B1 and TLK19780 have been identified as the functional insulin mimetics; however, they have poor bioavailability or low receptor specificity (3-5).Therefore, the search for new orally active insulin mimetics with stringent receptor selectivity is highly warranted.In this report, we demonstrate that the naphthoquinone derivative 5,8-diacetyloxy-2,3-dichloro-1,4-naphthoquinone (DDN) 3 is a highly selective IR activator that interacts directly with the IR tyrosine kinase domain to induce Akt and ERK phosphorylations. It is also an insulin sensitizer that enhances insulin's action to stimulate glucose uptake. Oral administration of this compound robustly decreases blood glucose in wildtype and diabetic ob/ob and db/db mice. Therefore, DDN is a bioactive insulin mimetic with hypoglycemic activity. EXPERIMENTAL PROCEDURESAnimals-Male C57BL/6J mice, male C57BL/KsJ db/db mice, and female C57BL/KsJ ob/ob mice were obtained from the Jackson Laboratory. Adult animals aged 10 -12 weeks were used. Mice were housed in environmentally controlled conditions with a 12-h light/dark cycle and had free access to standard rodent pellet food and water. The animal protocols were approved by the Institutional Animal Care and ...

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“…We therefore performed insulin competition assay using flow cytometry (9). CHO-IR cells were incubated with 100 nM FITC-insulin in the presence of DDN at different concentrations.…”

Section: Ddn and Csn Activate Ir And Insulin-mediated Signalingmentioning

confidence: 99%

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Chan

Liu

et al. 2011

Journal of Biological Chemistry

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“…Activators of receptors for thrombopoietin (c-Mpl) (Kimura et al, 1998), erythropoietin (Goldberg et al, 2002), insulin (Zhang et al, 1999), and the granulocyte colony stimulating factor (Tian et al, 1998) were identified by empiric, high throughput screening. In addition, Maliartchouk et al (2000a) and Zaccaro et al (2005) have developed low-molecular-weight TrkA agonists through progressive modification of small cyclic peptides emulating a ␤-turn. Virtual (also called in silico) screening of chemical libraries based on the structure of protein-protein interaction sites, ligand-receptor interaction sites, or a series of known small ligands is a potentially powerful approach for the identification of novel lead compounds (for review, see Kurogi and Guner, 2001;Mason et al, 2001;Guner, 2002;Singh et al, 2002;Guner et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

Small, Nonpeptide p75^NTRLigands Induce Survival Signaling and Inhibit proNGF-Induced Death

Massa¹,

Xie²,

Yang³

et al. 2006

J. Neurosci.

149

183

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Studies showing that neurotrophin binding to p75NTR can promote cell survival in the absence of Trk (tropomyosin-related kinase) receptors, together with recent structural data indicating that NGF may bind to p75 NTR in a monovalent manner, raise the possibility that small molecule p75 NTR ligands that positively regulate survival might be found. A pharmacophore designed to capture selected structural and physical chemical features of a neurotrophin domain known to interact with p75 NTR was applied to in silico screening of small molecule libraries. Small, nonpeptide, monomeric compounds were identified that interact with p75 NTR . In cells showing trophic responses to neurotrophins, the compounds promoted survival signaling through p75 NTR -dependent mechanisms. In cells susceptible to proneurotrophin-induced death, compounds did not induce apoptosis but inhibited proneurotrophin-mediated death. These studies identify a unique range of p75 NTR behaviors that can result from isolated receptor liganding and establish several novel therapeutic leads.

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“…Cyclized monomeric peptidomimetics designed using the -turn of NT-3 are good TrkC agonists, however some of the peptides showed partial agonistic response towards TrkA. Interestingly, some of the mimetics were able to induce a neurite outgrowth response through TrkA or TrkC, but failed to induce a survival response on TrkA-only expressing cells (Zaccaro et al, 2005). Neurite outgrowth studies were done using PC12 cells which express both TrkA and p75, whereas survival studies were done using TrkA-only expressing 3T3 cells.…”

Section: Small Molecule Trk Agonists and Antagonistsmentioning

confidence: 99%

“…The authors, therefore, argued that this peptidomimetic binds to a special 'hot spot' on TrkA that is accessible only when p75 is co-expressed. The co-expression of p75 with TrkA could result in formation of the TrkA-p75 heteroreceptor complex and binding of p75 to TrkA, perhaps, results in conformational changes in the receptor, making the 'hot spot' accessible (Zaccaro et al, 2005). The D3 mimetic in this series was also tested in cognitively impaired aged rats and showed rescue of the cholinergic phenotype in the cortex and nucleus basilis (Bruno, et al, 2004) and to improve learning and reduce -amyloid in APP mice (Aboulkassim, et al, 2011).…”

Section: Small Molecule Trk Agonists and Antagonistsmentioning

confidence: 99%

“…In other words, will the chemists be able to design sufficient specificity and selectivity into the peptidomimetics to compete with the potential specificity of a 26 kDa neurotrophin protein with its myriad interaction sites? The answer in some cases for selective signaling appears to be yes (Zaccaro et al, 2005;Longo, et al, 2007;Yang et al, 2008). Conversely, will the means of delivery (intracerebroventricular injection, intranasal inhalation, encapsulation) of a full-length neurotrophin mutein be developed sufficiently to make easy administration to the AD brain competitive with a, perhaps, less effective small molecule that is easily delivered?…”

Section: The Prognosis For Signal Selective Mimeticsmentioning

confidence: 99%

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Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

Neet¹,

Mahapatra²,

Mehta³

2011

Alzheimer's Disease Pathogenesis-Core Concepts, Shifting Paradigms and Therapeutic Targets

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Selective Small Molecule Peptidomimetic Ligands of TrkC and TrkA Receptors Afford Discrete or Complete Neurotrophic Activities

Cited by 52 publications

References 51 publications

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Small, Nonpeptide p75^NTRLigands Induce Survival Signaling and Inhibit proNGF-Induced Death

Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

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Selective Small Molecule Peptidomimetic Ligands of TrkC and TrkA Receptors Afford Discrete or Complete Neurotrophic Activities

Cited by 52 publications

References 51 publications

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Identification of a Molecular Activator for Insulin Receptor with Potent Anti-diabetic Effects

Small, Nonpeptide p75NTRLigands Induce Survival Signaling and Inhibit proNGF-Induced Death

Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

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Product

Resources

About

Small, Nonpeptide p75^NTRLigands Induce Survival Signaling and Inhibit proNGF-Induced Death