作者: Amann, Kerstin ; Morath, Christian ; Schmieder, Roland E ; Hutter, Eva ; Hilgers, Karl F ; Ditting, Tilmann ; Schiffer, Mario ; Hindermann, Martin ; Veelken, Roland ; Rodionova, Kristina

Abstract:

Bradykinin (BK) may increase renal sodium excretion by decreasing tubular ENaC activity. Afferent renal nerve activity (ARNA) putatively controls renal sympathetic nerve activity (RSNA) involved in renal sodium handling. We recently found tonic sympatho-inhibition due to intrarenal ARNA stimulation by the TRPV1 agonist capsaicin (CAP). Since BK is known to augment TRPV1 effects, we hypothesized that intrarenally applied BK also tonically inhibits RSNA. Four groups of rats (n = 8; BK, CAP, HOE + BK, NaCl-control) were equipped with arterial and venous catheters for blood pressure (BP) and heart rate (HR) recordings and drug application; bipolar electrodes for RSNA and ARNA recordings, renal arterial catheter for intrarenal administration (IRA) of bradykinin (BK: 10 −5 M, 20 µl and 10 –4 M; 2.5, 5, 10 µl), capsaicin (CAP 3.3, 6.6, 10 and 33*10 −7 M, 10 µl). The B2-receptor antagonist HOE-140 (10 –4 M, 40 µl) was administered intravenously (IV) just before IRA BK (HOE + BK), finally the NK 1 -receptor blocker RP67580 (10 −2 M, 15 µl; IV) was applied in all groups at the end of the experiment. IRA BK and CAP momentarily increased ARNA. IRA CAP, IRA BK, and IRA HOE + BK, decreased RSNA from 4.2 ± 0.8 to 1.3 ± 0.2 µV*sec (BK, P < 0.01), 3.6 ± 0.5 to 0.9 ± 0.2 µV*sec (CAP, P < 0.01) and 3.2 ± 0.3 to 0.8 ± 0.1 µV*sec (HOE-BK, P < 0.01). Suppressed RSNA (BK, CAP, HOE + BK) was unmasked by IV RP67580: 1.6 ± 0.5 to 8.6 ± 2.9 µV*sec (BK, P < 0.01); 1.0 ± 0.2 to 6.1 ± 1.5 µV*sec (CAP, P < 0.01); 0.8 ± 0.2 to 4.5 ± 0.8 µV*sec (HOE-BK, P < 0.05). IRA BK was associated with momentary increases of RSNA, abolished by HOE-140. Intrarenal stimulation of renal afferent nerves by BK induced tonic renal sympathodepression likely augmenting sodium and water excretion.

2023-08-01·The journal of pain

Involvement of ASIC3 and Substance P in Therapeutic Ultrasound–Mediated Analgesia in Mouse Models of Fibromyalgia

Article

作者: Chen, Chih-Cheng ; Wang, Jaw-Lin ; Lin, Shing-Hong ; Chu, Ya-Cherng ; Han, Der-Sheng ; Chang, Ke-Vin ; Lee, Cheng-Han ; Shieh, Yih-Dar

Therapeutic ultrasound (tUS) is widely used in chronic muscle pain control. However, its analgesic molecular mechanism is still not known. Our objective is to reveal the mechanism of the tUS-induced analgesia in mouse models of fibromyalgia. We applied tUS in mice that have developed chronic hyperalgesia induced by intramuscular acidification and determined the tUS frequency at 3 MHz, dosage at 1 W/cm² (measured output as 6.3 mW/cm²) and 100% duty cycle for 3 minutes having the best analgesic effect. Pharmacological and genetic approaches were used to probe the molecular determinants involved in tUS-mediated analgesia. A second mouse model of fibromyalgia induced by intermittent cold stress was further used to validate the mechanism underlying the tUS-mediated analgesia. The tUS-mediated analgesia was abolished by a pretreatment of NK1 receptor antagonist-RP-67580 or knockout of substance P (Tac1^-/-). Besides, the tUS-mediated analgesia was abolished by ASIC3-selective antagonist APETx2 but not TRPV1-selective antagonist capsazepine, suggesting a role for ASIC3. Moreover, the tUS-mediated analgesia was attenuated by ASIC3-selective nonsteroid anti-inflammation drugs (NSAIDs)-aspirin and diclofenac but not by ASIC1a-selective ibuprofen. We next validated the antinociceptive role of substance P signaling in the model induced by intermittent cold stress, in which tUS-mediated analgesia was abolished in mice lacking substance P, NK1R, Asic1a, Asic2b, or Asic3 gene. tUS treatment could activate ASIC3-containing channels in muscle afferents to release substance P intramuscularly and exert an analgesic effect in mouse models of fibromyalgia. NSAIDs should be cautiously used or avoided in the tUS treatment. PERSPECTIVE: Therapeutic ultrasound showed analgesic effects against chronic mechanical hyperalgesia in the mouse model of fibromyalgia through the signaling pathways involving substance P and ASIC3-containing ion channels in muscle afferents. NSAIDs should be cautiously used during tUS treatment.

2023-04-01·KOREAN JOURNAL OF CHEMICAL ENGINEERING

A microfluidic platform for simulating stem cell migration using in vivo-like gradients of stem cell mobilizer

作者: Jeon, Eun Je ; Kim, Jinyoung ; Park, Hyun-Ji ; Cho, Seung-Woo ; Kim, Jin

Stem cell mobilization by cytokines and peptide drugs contributes to wound healing in injured tissues.Owing to the short half-life of cytokines and short peptides in vivo, precisely predicting the in vivo therapeutic efficacy of stem cell mobilizers is difficult using current in vitro models.To address this problem, we developed a multichannel microfluidic device with diffusion barriers to recapitulate drug gradients in an in vivo-like environment.We investigated the effects of Substance P (SP), a stem cell mobilizer, on the migration of human bone marrow-derived mesenchymal stem cells (BM-MSCs) in the microfluidic chip, which replicated in vivo drug gradients.Simulations of SP concentration indicated that our microfluidic chip established SP gradients in migration channels, unlike the existing scratch model for cell migration assays.The scratch model did not distinguish the effects of SP with a short half-life and PEGylated SP with an extended half-life on BM-MSC migration, whereas the microfluidic system demonstrated that PEG-SP affected BM-MSC migration more than SP.Furthermore, the microfluidic chip allowed accurate quantification of the distance and direction of BM-MSC migration.Our microfluidic system could be useful for the precise evaluation of drugs associated with cell migration and mobilization.

100 项与 RP-67580 相关的药物交易

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适应症	最高研发状态	国家/地区	公司	日期
疼痛	临床1期	-	Sanofi	-
注意缺陷障碍伴多动	临床前	英国	University College London	2011-11-14
炎症	临床前	法国	Rhone Poulenc Rorer	1991-11-15