OBJECTIVE: To evaluate the antiinflammatory and analgesic effects of sepiapterin reductase (SPR) inhibition in a mouse model of inflammatory joint disease, and to determine whether urinary sepiapterin levels, as measured in mice and healthy human volunteers, could be useful as a noninvasive, translational biomarker of SPR inhibition/target engagement. METHODS: The collagen antibody-induced arthritis (CAIA) model was used to induce joint inflammation in mice. The effects of pharmacologic inhibition of SPR on thresholds of heat-, cold-, and mechanical-evoked pain sensitivity and on signs of inflammation were tested in mice with CAIA. In addition, mice and healthy human volunteers were treated with SPR inhibitors, and changes in urinary sepiapterin levels were analyzed by high-performance liquid chromatography. RESULTS: CAIA in mice was characterized by 2 phases: in the acute inflammation (early) phase, joint inflammation and heat-, mechanical-, and cold-induced pain hypersensitivity were present, while in the postinflammation (late) phase, no joint inflammation was observed but heat- and mechanical-induced hypersensitivity, but not cold hypersensitivity, were present. Inhibition of SPR in mice with CAIA significantly attenuated the heat-induced hyperalgesia in both phases, and the mechanical allodynia in the late phase. Signs of inflammation were unaffected by SPR inhibition. Urinary tetrahydrobiopterin levels, as a marker of inflammatory pain, were increased during inflammation in mice with CAIA (2-fold increase over controls; P < 0.05) and significantly reduced by SPR inhibition (P < 0.05 versus vehicle-treated mice). Increased urinary sepiapterin levels in the presence of SPR inhibition in both mice and healthy human volunteers were associated with high sensitivity (70-85%) and high specificity (82-88%) for the prediction of SPR inhibition/target engagement. CONCLUSION: SPR inhibition reduces the pain associated with joint inflammation, thus showing its potential utility as an analgesic strategy for inflammatory joint pain. In addition, SPR inhibition increases urinary sepiapterin levels, indicating the potential of this measurement as a noninvasive biomarker of target engagement of SPR inhibitors, such as sulfasalazine, a disease-modifying antirheumatic drug that is currently used as a first-line treatment for rheumatoid arthritis.
OBJECTIVE: To evaluate the antiinflammatory and analgesic effects of sepiapterin reductase (SPR) inhibition in a mouse model of inflammatory joint disease, and to determine whether urinary sepiapterin levels, as measured in mice and healthy human volunteers, could be useful as a noninvasive, translational biomarker of SPR inhibition/target engagement. METHODS: The collagen antibody-induced arthritis (CAIA) model was used to induce joint inflammation in mice. The effects of pharmacologic inhibition of SPR on thresholds of heat-, cold-, and mechanical-evoked pain sensitivity and on signs of inflammation were tested in mice with CAIA. In addition, mice and healthy human volunteers were treated with SPR inhibitors, and changes in urinary sepiapterin levels were analyzed by high-performance liquid chromatography. RESULTS:CAIA in mice was characterized by 2 phases: in the acute inflammation (early) phase, joint inflammation and heat-, mechanical-, and cold-induced pain hypersensitivity were present, while in the postinflammation (late) phase, no joint inflammation was observed but heat- and mechanical-induced hypersensitivity, but not cold hypersensitivity, were present. Inhibition of SPR in mice with CAIA significantly attenuated the heat-induced hyperalgesia in both phases, and the mechanical allodynia in the late phase. Signs of inflammation were unaffected by SPR inhibition. Urinary tetrahydrobiopterin levels, as a marker of inflammatory pain, were increased during inflammation in mice with CAIA (2-fold increase over controls; P < 0.05) and significantly reduced by SPR inhibition (P < 0.05 versus vehicle-treated mice). Increased urinary sepiapterin levels in the presence of SPR inhibition in both mice and healthy human volunteers were associated with high sensitivity (70-85%) and high specificity (82-88%) for the prediction of SPR inhibition/target engagement. CONCLUSION:SPR inhibition reduces the pain associated with joint inflammation, thus showing its potential utility as an analgesic strategy for inflammatory joint pain. In addition, SPR inhibition increases urinary sepiapterin levels, indicating the potential of this measurement as a noninvasive biomarker of target engagement of SPR inhibitors, such as sulfasalazine, a disease-modifying antirheumatic drug that is currently used as a first-line treatment for rheumatoid arthritis.
Authors: Shane J F Cronin; Corey Seehus; Adelheid Weidinger; Sebastien Talbot; Sonja Reissig; Markus Seifert; Yann Pierson; Eileen McNeill; Maria Serena Longhi; Bruna Lenfers Turnes; Taras Kreslavsky; Melanie Kogler; David Hoffmann; Melita Ticevic; Débora da Luz Scheffer; Luigi Tortola; Domagoj Cikes; Alexander Jais; Manu Rangachari; Shuan Rao; Magdalena Paolino; Maria Novatchkova; Martin Aichinger; Lee Barrett; Alban Latremoliere; Gerald Wirnsberger; Guenther Lametschwandtner; Meinrad Busslinger; Stephen Zicha; Alexandra Latini; Simon C Robson; Ari Waisman; Nick Andrews; Michael Costigan; Keith M Channon; Guenter Weiss; Andrey V Kozlov; Mark Tebbe; Kai Johnsson; Clifford J Woolf; Josef M Penninger Journal: Nature Date: 2018-11-07 Impact factor: 49.962
Authors: Duygu B Bas; Jie Su; Katalin Sandor; Nilesh M Agalave; Johanna Lundberg; Simone Codeluppi; Azar Baharpoor; Kutty S Nandakumar; Rikard Holmdahl; Camilla I Svensson Journal: Arthritis Rheum Date: 2012-12
Authors: Enrique J Cobos; Chelsea A Nickerson; Fuying Gao; Vijayendran Chandran; Inmaculada Bravo-Caparrós; Rafael González-Cano; Priscilla Riva; Nick A Andrews; Alban Latremoliere; Corey R Seehus; Gloria Perazzoli; Francisco R Nieto; Nicole Joller; Michio W Painter; Chi Him Eddie Ma; Takao Omura; Elissa J Chesler; Daniel H Geschwind; Giovanni Coppola; Manu Rangachari; Clifford J Woolf; Michael Costigan Journal: Cell Rep Date: 2018-01-30 Impact factor: 9.423
Authors: Débora da Luz Scheffer; Fernando Cini Freitas; Aderbal Silva Aguiar; Catherine Ward; Luiz Guilherme Antonacci Guglielmo; Rui Daniel Prediger; Shane J F Cronin; Roger Walz; Nick A Andrews; Alexandra Latini Journal: Brain Commun Date: 2021-06-08