The role of the purinergic system in the modulation of pain mechanisms suggests that it might be promising target for treating neuropathic pain. In this study we evaluated the effects of two different dialdehydic compounds: a modified stable adenosine (2-[1-(6-amminopurin-9-il)-2-osso-etossi]prop-2-enale, named MED1101), and oxidized ATP (Ox-ATP), in two different neuropathic pain rat models: the sciatic spared nerve injury (SNI) and paclitaxel evoked painful peripheral neuropathy (pPPN). Neuropathic animals were divided in groups as follows: (a) treated with intraperitoneal (i.p.) MED1101 or Ox-ATP for 21 days; (b) receiving vehicle (VEH) and (c) control (CTR) rats. The allodynic and hyperalgesic behavior was investigated by Von Frey filament test and thermal Plantar test, respectively. We evaluated by immunocytochemistry the astrocytic (GFAP) and microglial (Iba1) response on lumbar spinal cord sections. In either experimental models and using either substances, treated animals showed reduced allodynia and thermal hyperalgesia paralleled by a significant reduction of glial reaction in the spinal cord. These data prompt to hypothesize a potential role of dialdehydes as analgesic agent in chronic neuropathic pain and a possible role as anti-gliotic molecules.

Neuropathic pain and reactive gliosis are reversed by dialdehydic compound in neuropathic pain rat models.

Cirillo G;PAPA, Michele
2012

Abstract

The role of the purinergic system in the modulation of pain mechanisms suggests that it might be promising target for treating neuropathic pain. In this study we evaluated the effects of two different dialdehydic compounds: a modified stable adenosine (2-[1-(6-amminopurin-9-il)-2-osso-etossi]prop-2-enale, named MED1101), and oxidized ATP (Ox-ATP), in two different neuropathic pain rat models: the sciatic spared nerve injury (SNI) and paclitaxel evoked painful peripheral neuropathy (pPPN). Neuropathic animals were divided in groups as follows: (a) treated with intraperitoneal (i.p.) MED1101 or Ox-ATP for 21 days; (b) receiving vehicle (VEH) and (c) control (CTR) rats. The allodynic and hyperalgesic behavior was investigated by Von Frey filament test and thermal Plantar test, respectively. We evaluated by immunocytochemistry the astrocytic (GFAP) and microglial (Iba1) response on lumbar spinal cord sections. In either experimental models and using either substances, treated animals showed reduced allodynia and thermal hyperalgesia paralleled by a significant reduction of glial reaction in the spinal cord. These data prompt to hypothesize a potential role of dialdehydes as analgesic agent in chronic neuropathic pain and a possible role as anti-gliotic molecules.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11591/234550
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