Mara Astolfi

The antagonism induced by ruthenium red of the actions of capsaicin on the peripheral terminals of sensory neurons: further studies

Ruthenium Red, an inorganic dye which blocks transmembrane calcium (Ca) fluxes in neural tissues, reduced the capsaicin-induced release of substance P-like immunoreactivity from muscle strips of the guinea-pig urinary bladder in a concentration-dependent (30 nM - 3 microM) manner, and protected the sensory fibers from capsaicin-induced densensitization. A similar antagonism of the actions of capsaicin was observed in functional experiments (capsaicin-induced contraction of the isolated guinea-pig bladder or inhibition of twitches of the isolated rat vas deferens). In view of its established action on the depolarization-coupled entry of Ca into synaptosomes and the secretion of transmitter, we propose that Ruthenium Red could antagonize the action of capsaicin on the peripheral terminals of sensory nerves by a similar mechanism, thereby suppressing transmitter secretion and preventing the establishment of desensitization.

Functional characterization of substance P receptors on cultured human spinal cord astrocytes: synergism of substance P with cytokines in inducing interleukin-6 and prostaglandin E2 production.

Following brain injury, astrocytes express receptors for cytokines and neuropeptides and secrete several regulatory mediators that have a well established role in inflammation, immunity, and tissue development or repair. To elucidate the role of substance P (SP), a neurotransmitter peptide of the tachykinin family, in inducing astrocyte secretory activities, we have examined the expression of SP receptors and the functional consequences of their activation in cultured astrocytes from the human embryonic brain or spinal cord. Radioligand binding studies revealed that only one type of SP receptors, the high affinity NK‐1 receptor, was present on human astrocytes and that spinal cord astrocytes expressed about 6 times as many SP binding sites as brain astrocytes. Following SP treatment, a substantial inositol phosphate formation was observed in spinal cord astrocytes only. Stimulation of spinal cord astrocytes with SP alone did not induce secretion of cytokines [interleukin‐6 (IL‐6), granulocyte‐macrophage‐CSF, macrophage chemoattractant protein‐1 or leukemia inhibitory factor] or prostaglandin E2 (PGE2). Interestingly, however, SP selectively potentiated the inducing effect of IL‐1β on IL‐6 and PGE2 secretion by spinal cord astrocytes without affecting the IL‐1‐β‐evoked secretion of other cytokines. SP also enhanced the small inducing effect of tumor necrosis factor‐α (TNF‐α) on IL‐6 and PGE2 secretion and that of transforming growth factor‐β on PGE2 secretion. These results suggest that SP can enhance immunoregulatory and neurotrophic astroglial functions mediated by IL‐6 and PGE2 by acting in concert with a set of cytokines whose cerebral expression has been reported during development and in a variety of diseases. GLIA 21:183–193, 1997.

The effect of calcium free medium and nifedipine on the release of substance P-like immunoreactivity and contractions induced by capsaicin in the isolated guinea-pig and rat bladder

1. Capsaicin produced a prompt release of substance P-like immunoreactivity (SP-LI) from superfused mucosa-free muscle strips excised from the guinea-pig urinary bladder. A second application of capsaicin had no further effect, indicating desensitization. 2. Neither tetrodotoxin (1 microM) or nifedipine (10 microM) had any inhibitory effect on SP-LI release by capsaicin nor influenced the establishment of the desensitized state. Nifedipine produced per se some SP-LI release. 3. SP-LI release by capsaicin was abolished by incubation in a Calcium(Ca)-free medium containing EDTA (1.0 mM) which also afforded a partial protection toward desensitization. A lower EDTA concentration (0.1 mM) did not suppress SP-LI release by capsaicin but still inhibited desensitization. 4. When the concentration of CaCl2 in the medium was lowered to 1/10-1/100 of that present in normal Krebs solution, capsaicin still evoked a marked SP-LI release and desensitization occurred. In a nominally Ca free medium (maximal Ca concentration due to impurities was 6.7 microM) SP-LI release was still observed and desensitization was incomplete. 5. In a nominally Ca free medium, removal of Mg ions enhanced the SP-LI release induced by capsaicin and enhanced desensitization. 6. In functional studies, nifedipine greatly reduced or abolished the capsaicin- or SP-induced contraction of the rat or guinea-pig isolated bladder but did not prevent desensitization. Likewise, SP-LI depletion in the rat bladder following systemic capsaicin desensitization was not prevented by nifedipine pretreatment. On the other hand, the protective action of Ca free media (containing EDTA) was confirmed in organ bath studies (guinea-pig bladder). 7. These findings indicate that: (a) the requirements of extracellular calcium for activation of neuropeptide release from sensory nerves by capsaicin are very low; (b) both excitation of sensory fibers (SP-LI release) and desensitization are dependent upon the presence of extracellular calcium and (c) L-type voltage-sensitive Ca channels are not likely to be involved in the actions of capsaicin on sensory nerve terminals.

Further evidence for the existence of NK2 tachykinin receptor subtypes

1 We have evaluated the biological activity of a number of neurokinin A (4–10), (NKA (4–10)) analogues in the endothelium‐deprived rabbit isolated pulmonary artery (RPA) and hamster isolated trachea (HT), two tissues rich in different NK2 receptor subtypes. 2 MDL 28,564, a pseudopeptide selective for NK2 receptor sites, behaved as a full agonist in the RPA, while in the HT it competitively antagonized NKA or [βAla8]‐NKA (4–10) contractile effects. 3 The peculiar behaviour of MDL 28,564 in the RPA and HT may be explained neither by a difference in receptor reserve between the two organs (the reserve being three times greater in RPA than in the HT) nor by a different affinity for the two receptor subtypes (identical dissociation constants, pKA or pKB, calculated in the RPA and in the HT). On the other hand, MDL 28,564 displayed a very different intrinsic efficacy for the two receptor subtypes. 4 The novel peptides MEN 10,295 ([Trp7, βAla8]‐NKA‐(4–10)) and MEN 10,296 ([Tyr5, Trp7, βAla8]‐NKA‐(4–10)) behaved as weaker agonists than MDL 28,564 in the RPA, but retained appreciable agonist activity also in the HT. 5 The novel peptides: MEN 10,282 ([Tyr5, d‐Trp6,8, Trp9, Arg10]‐NKA‐(4–10)), MEN 10,449 ([diI‐Try5, d‐Trp6,8,9, Arg10]‐NKA‐(4–10)) and the cyclic hexapeptide L 659,877 (cyclo [Leu‐Met‐Gln‐Trp‐Phe‐Gly]) behaved as competitive antagonists against NKA contractile effects both in the RPA and HT. MEN 10,282 and MEN 10,449 were unable to distinguish between the NK2 receptor subtypes, having almost the same affinity in the two organs. On the other hand L 659,877 was about 15 times more potent in the HT than in the RPA. 6 These results provide further evidence for NK2 receptors heterogeneity and are useful in outlining pharmacological features of the two subtypes present in the RPA and HT.

The presence of mucosa reduces the contractile response of the guinea-pig urinary bladder to substance P

The contractile response to substance P in‐vitro is greater in strips of guinea‐pig bladder freed of mucosa than in normal strips, while the response to field stimulation, histamine or KCl is unaffected by the presence of mucosa. Substance P has no inhibitory effect on histamine‐induced contractions of the guinea‐pig bladder. These findings support the possibility that the presence of mucosa may reduce accessibility of substance P to the muscle layer.

Simultaneous release of substance P- and calcitonin gene-related peptide (CGRP)-like immunoreactivity from isolated muscle of the guinea pig urinary bladder

Capsaicin (10 microM) induced a tetrodotoxin (TTX)-resistant release of substance P (SP)- and calcitonin gene-related peptide (CGRP)-like immunoreactivity (LI) from muscle strips of the guinea pig isolated urinary bladder. A second application of capsaicin had no effect, indicating a specific effect on sensory nerves (desensitization). In functional experiments, capsaicin produced a phasic contraction of isolated bladder strips. This response was TTX-resistant, exhibited desensitization and was specifically antagonized by [D-Pro4, D-Trp7.9, Phe11] SP(4-11) a SP antagonist which also reduced, at a similar extent, the contraction induced by exogenous SP. These findings provide direct neurochemical and functional evidence for a transmitter role for a SP-like peptide(s) from peripheral sensory terminals in the guinea pig urinary bladder.

Activity of peptide and non-peptide antagonists at peripheral NK1 receptors.

We investigated the affinity of several tachykinin antagonists reportedly selective for NK1 receptors at various tachykinin receptors and NK2 receptors subtypes. The four antagonists tested were: L 668,169, Spantide II, Ac-Thr-DTrp(for)-Phe-NMeBzl (FR 113680) and the novel nonpeptide antagonist (+/-)-CP-96,345. The four antagonists were found to be effective against NK1 receptor-mediated responses in the guinea-pig ileum with the following rank order of potency (pKB values in parentheses): (+/-)-CP-96,345 (8.11) greater than Spantide II (7.08) greater than FR 113680 (6.61) greater than or equal to L 558,169 (6.44). (+/-)-CP-96,345, Spantide II and FR 113680 were distinctly more potent at NK1 receptors than at NK2 receptors (NK2A in the rabbit pulmonary artery, NK2B in the hamster trachea). L 668,169 antagonized neurokinin A-induced contractions in the hamster trachea with an affinity similar (pKB value 6.16) to that found in the guinea-pig ileum for NK1 receptors (pKB value 6.44). All antagonists were inactive at NK3 receptors of the rat portal vein. In a second series of experiments, the affinities of test antagonists for NK1 receptors in the guinea-pig ileum were compared to those for NK1 receptors in the guinea-pig vas deferens, the rabbit jugular vein and the rat urinary bladder. For each antagonist, the affinity measured in the guinea-pig vas deferens and the rabbit jugular vein was comparable to that found in the guinea-pig ileum. In the rat urinary bladder, (+/-)-CP-96,345 was about 100 times less potent in blocking NK1 receptor-mediated contractions than in the guinea-pig ileum.(ABSTRACT TRUNCATED AT 250 WORDS)

Role of D-tryptophan for affinity of MEN 10207 tachykinin antagonist at NK2 receptors.

The role of the D-Trp residues in the sequence of the NK2-selective tachykinin antagonist, MEN 10207 (Asp-Tyr-D-Trp-Val-D-Trp-D-Trp-Arg-NH2). has been examined by replacement of each D-Trp with either the L-isomer or the residue naturally occurring in the same position of neurokinin A(4-10). The biological activity of the analogues thus obtained has been characterized, with special attention to the selectivity for the three tachykinin receptors and for the two subtypes of the NK2 receptor recently described. We conclude that the simultaneous presence of the three D-Trp residues of MEN 10207 is crucial both for affinity and for selectivity.

Characterization of the tachykinin NK2 receptor in the human bronchus: influence of amastatin‐sensitive metabolic pathways

1 The aim of this study was to characterize the tachykinin NK2 receptor subtype mediating the spasmogenic response in the human isolated bronchus. The motor response to neurokinin A (NKA) and the selective NK2 agonist [βAla8]NKA(4–10), as well as the antagonistic effects of cyclic (L659,877) and linear (MEN 10376) peptide NK2 antagonists were assessed in the presence or absence of amastatin (an inhibitor of aminopeptidases A and M). 2 NKA was more potent than [βAla8]NKA(4–10) in eliciting bronchoconstriction (pD2 being 7,43 and 6,87 respectively). In the presence of amastatin (1 μm), the estimated affinity of [βAla8]NKA(4–10), but not that of NKA, was significantly increased to yield a pD2 of 7,44. 3 L659,877 and MEN 10376 inhibited [βAla8]NKA(4–10)‐induced contraction with similar affinities; pA2 values were 5.7 ± 0.22 and 6.3 ± 0.32, respectively. Amastatin (1 μm) increased the potency of MEN 10376 to 7.28 ± 0.46, whereas that of L659,877 was unaffected. 4 In the presence of amastatin the pseudopeptide MDL 28,564 behaved as a partial agonist. 5 We conclude that the NK2 receptor subtype present in the human bronchus has properties similar to those described for the circular muscle of the human colon and thus may be classified as a ‘NK2A’ subtype. We show that the apparent potency of peptides, bearing N‐terminal acidic residues, is influenced by an amastatin‐sensitive peptidase, possibly aminopeptidase A.

Acrylamide-induced visceral neuropathy : evidence for the involvement of capsaicin-sensitive nerves of the rat urinary bladder

The mechanisms underlying the severe urinary retention induced by acrylamide intoxication were studied in detail in the rat. Subcutaneous treatment with acrylamide monomer (50 mg/kg daily for 10 days) almost completely impaired the micturition reflex, resulting in urinary retention. In fact, the ability to eliminate an oral water load was virtually abolished, while bladder filling with saline (transvesical cystometrogram) failed to activate reflex micturition. Instead, a picture of overflow incontinence resulted in urethane-anaesthetized rats, which was not reversed by intravenous administration of 4-aminopyridine. The nerve-mediated contractile response to field stimulation (0.1-20 Hz, 0.5 ms, 60 V) of the isolated bladder was unaffected, thus suggesting the integrity of bladder efferent innervation, and no evidence was found from in vitro experiments that the myogenic contractility of the bladder was depressed by acrylamide treatment. Conversely, the sensory nerve-mediated response to capsaicin was abolished and sensory nerve fibres of the bladder were selectively depleted of their content of substance P- and calcitonin gene-related peptide immunoreactivity following acrylamide treatment. In fact, concentrations of the same neuropeptides in other organs, including the adjoining ureters, were unaffected. As to the urethral segment, including the striated sphincter, the D-tubocurarine (0.2 mM)-sensitive urethral response to electrical stimulation (0.1 Hz, 0.1 ms, 20 V) was significantly reduced in acrylamide-treated animals. At the same level, neurofilament protein immunostaining revealed striking accumulations of neurofilament protein-like material in motor end-plates, thus indicating that neuromuscular junctions of the urethral striated sphincter were severely affected. Thus, the afferent arm of the micturition reflex was shown to be severely deranged by acrylamide intoxication, especially in its capsaicin-sensitive component. Since twitch-like contractions of the urethral striated sphincter are probably involved in promoting bladder voiding, a decreased efficiency of this mechanism could participate in the picture of urinary retention induced by acrylamide.