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Literature DB >> 28596533

Breaking barriers to novel analgesic drug development.

Ajay S Yekkirala^1,2,3, David P Roberson^1,2,3, Bruce P Bean¹, Clifford J Woolf^1,2.

Abstract

Acute and chronic pain complaints, although common, are generally poorly served by existing therapies. This unmet clinical need reflects a failure to develop novel classes of analgesics with superior efficacy, diminished adverse effects and a lower abuse liability than those currently available. Reasons for this include the heterogeneity of clinical pain conditions, the complexity and diversity of underlying pathophysiological mechanisms, and the unreliability of some preclinical pain models. However, recent advances in our understanding of the neurobiology of pain are beginning to offer opportunities for developing novel therapeutic strategies and revisiting existing targets, including modulating ion channels, enzymes and G-protein-coupled receptors.

Entities: Disease

Mesh：

Substances：
Analgesics

Year: 2017 PMID： 28596533 PMCID： PMC5675565 DOI： 10.1038/nrd.2017.87

Source DB: PubMed Journal: Nat Rev Drug Discov ISSN： 1474-1776 Impact factor: 84.694

283 in total

1. Neuronal P2X transmitter-gated cation channels change their ion selectivity in seconds.

Authors: B S Khakh; X R Bao; C Labarca; H A Lester
Journal: Nat Neurosci Date: 1999-04 Impact factor: 24.884

Review 2. Molecular mechanisms of nociception.

Authors: D Julius; A I Basbaum
Journal: Nature Date: 2001-09-13 Impact factor: 49.962

3. Chemokines and glycoprotein120 produce pain hypersensitivity by directly exciting primary nociceptive neurons.

Authors: S B Oh; P B Tran; S E Gillard; R W Hurley; D L Hammond; R J Miller
Journal: J Neurosci Date: 2001-07-15 Impact factor: 6.167

Review 4. NK1 (substance P) receptor antagonists--why are they not analgesic in humans?

Authors: R Hill
Journal: Trends Pharmacol Sci Date: 2000-07 Impact factor: 14.819

5. Pore dilation of neuronal P2X receptor channels.

Authors: C Virginio; A MacKenzie; F A Rassendren; R A North; A Surprenant
Journal: Nat Neurosci Date: 1999-04 Impact factor: 24.884

6. Enadoline, a selective kappa opioid agonist: comparison with butorphanol and hydromorphone in humans.

Authors: S L Walsh; E C Strain; M E Abreu; G E Bigelow
Journal: Psychopharmacology (Berl) Date: 2001-09 Impact factor: 4.530

Review 7. Neuronal plasticity: increasing the gain in pain.

Authors: C J Woolf; M W Salter
Journal: Science Date: 2000-06-09 Impact factor: 47.728

8. Spared nerve injury: an animal model of persistent peripheral neuropathic pain.

Authors: Isabelle Decosterd; Clifford J Woolf
Journal: Pain Date: 2000-08 Impact factor: 6.961

9. Murine models of inflammatory, neuropathic and cancer pain each generates a unique set of neurochemical changes in the spinal cord and sensory neurons.

Authors: P Honore; S D Rogers; M J Schwei; J L Salak-Johnson; N M Luger; M C Sabino; D R Clohisy; P W Mantyh
Journal: Neuroscience Date: 2000 Impact factor: 3.590

10. Heterologous desensitization of opioid receptors by chemokines inhibits chemotaxis and enhances the perception of pain.

Authors: Imre Szabo; Xiao-Hong Chen; Li Xin; Martin W Adler; O M Z Howard; Joost J Oppenheim; Thomas J Rogers
Journal: Proc Natl Acad Sci U S A Date: 2002-07-18 Impact factor: 11.205

76 in total

1. Cannabinoid CB2 Agonist AM1710 Differentially Suppresses Distinct Pathological Pain States and Attenuates Morphine Tolerance and Withdrawal.

Authors: Ai-Ling Li; Xiaoyan Lin; Amey S Dhopeshwarkar; Ana Carla Thomaz; Lawrence M Carey; Yingpeng Liu; Spyros P Nikas; Alexandros Makriyannis; Ken Mackie; Andrea G Hohmann
Journal: Mol Pharmacol Date: 2018-11-30 Impact factor: 4.436

2. Inner Workings: Safer opioids may be on the horizon, but mitigating addiction is a long shot.

Authors: Jyoti Madhusoodanan
Journal: Proc Natl Acad Sci U S A Date: 2018-08-14 Impact factor: 11.205

3. β-Fluorofentanyls Are pH-Sensitive Mu Opioid Receptor Agonists.

Authors: Ricardo Rosas; Xi-Ping Huang; Bryan L Roth; Chris Dockendorff
Journal: ACS Med Chem Lett Date: 2019-08-13 Impact factor: 4.345

4. Protein Kinase C Lambda Mediates Acid-Sensing Ion Channel 1a-Dependent Cortical Synaptic Plasticity and Pain Hypersensitivity.

Authors: Hu-Song Li; Xin-Yu Su; Xing-Lei Song; Xin Qi; Ying Li; Rui-Qi Wang; Oleksandr Maximyuk; Oleg Krishtal; Tingting Wang; Houqin Fang; Lujian Liao; Hong Cao; Yu-Qiu Zhang; Michael X Zhu; Ming-Gang Liu; Tian-Le Xu
Journal: J Neurosci Date: 2019-05-17 Impact factor: 6.167

5. Breaking barriers to novel analgesic drug development.

Authors: Ajay S Yekkirala; David P Roberson; Bruce P Bean; Clifford J Woolf
Journal: Nat Rev Drug Discov Date: 2017-10-06 Impact factor: 84.694

Review 6. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

Authors: Andelain Erickson; Annemie Deiteren; Andrea M Harrington; Sonia Garcia-Caraballo; Joel Castro; Ashlee Caldwell; Luke Grundy; Stuart M Brierley
Journal: J Physiol Date: 2018-02-06 Impact factor: 5.182

Breaking barriers to novel analgesic drug development.

1. Neuronal P2X transmitter-gated cation channels change their ion selectivity in seconds.

Review 2. Molecular mechanisms of nociception.

3. Chemokines and glycoprotein120 produce pain hypersensitivity by directly exciting primary nociceptive neurons.

Review 4. NK1 (substance P) receptor antagonists--why are they not analgesic in humans?

5. Pore dilation of neuronal P2X receptor channels.

6. Enadoline, a selective kappa opioid agonist: comparison with butorphanol and hydromorphone in humans.

Review 7. Neuronal plasticity: increasing the gain in pain.

8. Spared nerve injury: an animal model of persistent peripheral neuropathic pain.

9. Murine models of inflammatory, neuropathic and cancer pain each generates a unique set of neurochemical changes in the spinal cord and sensory neurons.

10. Heterologous desensitization of opioid receptors by chemokines inhibits chemotaxis and enhances the perception of pain.

1. Cannabinoid CB2 Agonist AM1710 Differentially Suppresses Distinct Pathological Pain States and Attenuates Morphine Tolerance and Withdrawal.

2. Inner Workings: Safer opioids may be on the horizon, but mitigating addiction is a long shot.

3. β-Fluorofentanyls Are pH-Sensitive Mu Opioid Receptor Agonists.

4. Protein Kinase C Lambda Mediates Acid-Sensing Ion Channel 1a-Dependent Cortical Synaptic Plasticity and Pain Hypersensitivity.

5. Breaking barriers to novel analgesic drug development.

Review 6. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

Review 7. Neuroinflammation and Central Sensitization in Chronic and Widespread Pain.

Review 8. Spinal α₂ -adrenoceptors and neuropathic pain modulation; therapeutic target.

Review 9. [Pain inhibition by opioids-new concepts].

Review 10. Therapeutic Advances in Diabetes, Autoimmune, and Neurological Diseases.

Review 2. Molecular mechanisms of nociception.

Review 4. NK1 (substance P) receptor antagonists--why are they not analgesic in humans?

Review 7. Neuronal plasticity: increasing the gain in pain.

Review 6. Voltage-gated sodium channels: (NaV )igating the field to determine their contribution to visceral nociception.

Review 7. Neuroinflammation and Central Sensitization in Chronic and Widespread Pain.

Review 8. Spinal α2 -adrenoceptors and neuropathic pain modulation; therapeutic target.

Review 9. [Pain inhibition by opioids-new concepts].

Review 10. Therapeutic Advances in Diabetes, Autoimmune, and Neurological Diseases.

Review 6. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

Review 8. Spinal α₂ -adrenoceptors and neuropathic pain modulation; therapeutic target.