Effects of CGRP receptor antagonism in nitroglycerin-induced hyperalgesia

Background

The release of calcitonin gene-related peptide (CGRP) from trigeminal nerves plays a central role in the pathophysiology of migraine and clinical evidence shows an antimigraine effect for CGRP receptor antagonists. Systemic administration of nitroglycerin (NTG), a nitrovasodilator, consistently provokes spontaneous-like migraine attacks in migraine sufferers; in the rat, systemic NTG induces a condition of hyperalgesia, probably through the activation of cerebral/spinal structures involved in nociceptive transmission.

Aim

The aim of this article is to test the analgesic effect of the CGRP receptor antagonist MK-8825 in two animal models of pain that may be relevant for migraine: the tail flick test and the formalin test performed during NTG-induced hyperalgesia.

Results

MK-8825 showed analgesic activity when administered alone at both the tail flick test and the formalin test. Furthermore, the CGRP antagonist proved effective in counteracting NTG-induced hyperalgesia in both tests. MK-8825 indeed reduced the nociceptive behavior when administered either simultaneously or prior to (30–60 minutes before) NTG.

Conclusion

These data suggest that MK-8825 may represent a potential therapeutic tool for the treatment of migraine.

Experimental models of migraine

In vitro studies on animal and human cephalic vessels allow the measurement of second messengers or intracellular calcium concentrations and the evaluation of the role of endogenous neuropeptides in perivascular nerve endings involved in migraine pathophysiology. In addition, in vitro human models allow the assessment of receptorial cranial selectivity and the collection of reliable information regarding the behavior of these vessels in migraine headache. The availability of animal models of migraine has favoured impressive advances in understanding the mechanisms and mediators underlying migraine attacks, as well as the development of new and more specific therapeutic agents. The trigeminovascular system (TVS) has emerged as a critical efferent component, and the mediators of its activity have been identified and characterized, as have some of the receptors involved. The similarity of the trigeminal innervation across species has made it possible to draw conclusions on the neurophysiological responses to electrical or chemical stimulation of the trigeminal fibers. Studies involving substances known to induce migraine-like attacks, i.e., nitric oxide (NO) donors, have provided interesting insights into the central nuclei probably involved in the initiation and repetition of migraine attacks. The neuronal and vascular effects of such substances might yield an increasing body of evidence for a better understanding of the pathophysiology of migraine attacks.

Pathways to the Best Fit of Triptans for Migraine Patients

Variability in drug response is a major barrier to the successful treatment of migraine, and most treatments are only optimal in a subset of patients. Although triptans provide the best therapeutic option for the treatment of acute migraine, it has not previously been possible to predict how well patients will respond to a specific triptan or whether they will experience unpleasant adverse events. Hence, it has been difficult for physicians to match individual patients with the most suitable agent to treat their migraine pain. Intrapatient variability has been associated with polymorphisms in genes encoding drug-metabolizing enzymes, drug transporters and drug targets. Pharmacogenetics provides the possibility of tailoring the therapeutic approach to individual patients, in order to maximize treatment efficacy while minimizing the potential for unwanted side-effects. This review demonstrates how almotriptan may overcome genetically determined responses by utilizing diverse metabolic pathways to provide therapeutic benefit to many migraineurs.

The impact of prophylactic treatment on post-traumatic epilepsy after severe traumatic brain injury

AIM

To assess the incidence of late post-traumatic epilepsy (PTE) in patients with very severe traumatic brain injury (TBI) who either received or did not receive anti-epileptic prophylactic treatment.

METHODS

Two populations were studied: 55 patients retrospectively and 82 subjects prospectively.

RESULTS

Ten patients (18%) in the first population showed late PTE. Although the incidence was lower in patients who did not receive prophylactic treatment, the difference between the treated and the non-treated group was not statistically significant. Sixty-nine patients in the second group (84%) had prophylactic treatment. Twenty-seven patients (39%) suffered from late PTE during the 2-year follow-up period and 17 of them (63%) showed EEG epileptic abnormalities. No patient who did not receive preventive therapy suffered from late PTE during the observation period.

CONCLUSIONS

Due to the negative cognitive effects of anti-epileptic drugs, the preliminary results are of considerable interest for the rehabilitation of patients with very severe TBI.

The value of the D-Dimer assay for predicting vein thrombosis in rehabilitation patients receiving prophylactic low molecular weight heparin doses

PURPOSE

Early diagnosis and treatment of venous thrombosis biocontact="no" are essential in preventing pulmonary embolism (PE) and reducing the risk of recurrence. The objective was to assess the usefulness of the D-Dimer testing to rule out symptomatic VT in populations of patients receiving heparin in prophylactic doses.

METHODS

One hundred and twenty-three rehabilitation patients with medium or high risk for VT were investigated. Patients were affected by acquired cerebral diseases (n=31), severe brain damage (n=32) or orthopaedic surgical sequelae for major joint replacement or multiple limb fractures (n=60). All patients were receiving prophylactic heparin doses. D-Dimer levels were assessed using Dimertest Latex Agglutination Assay in citrated plasma. Single blinded compression Doppler Ultrasound (DUS) examination was performed in conformity with international standards.

RESULTS

In this specific setting, good sensitivity and specificity of the D-Dimer test was confirmed in patients with acquired cerebral diseases during rehabilitation, whereas false positive results were found in most patients who had undergone major joint replacement, until several weeks after surgery.

CONCLUSIONS

In rehabilitation patients receiving prophylactic heparin doses, the D-Dimer test seems to confirm high sensitivity and high negative predictive value for VT and PE. Relevant clinical variables seem to reduce the usefulness of the D-Dimer test as a screening tool for VT, at least in orthopaedic patients with joint prosthesis.

A novel ATP1A2 mutation in a family with FHM type II

Familial hemiplegic migraine (FHM) is a rare subtype of migraine with aura with an autosomal dominant pattern of inheritance. Six FHM families underwent extensive clinical and genetic investigation. The authors identified a novel ATP1A2 mutation (E700K) in three patients from one family. In the patients, attacks were triggered by several factors including minor head trauma. In one subject a 3-day coma developed after a cerebral angiography. Overall, the phenotype of the patients closely resembles that of previously reported cases of FHM type II. The E700K variant might be regarded as the cause of the disease in this family, but this was not tested functionally.

Familial basilar migraine associated with a new mutation in the ATP1A2 gene

Basilar migraine (BM), familial hemiplegic migraine (FHM), and sporadic hemiplegic migraine (SHM) are phenotypically similar subtypes of migraine with aura, differentiated only by motor symptoms, which are absent in BM. Mutations in CACNA1A and ATP1A2 have been found in FHM. The authors detected a novel mutation in the ATP1A2 gene (R548H) in members of a family with BM, suggesting that BM and FHM may be allelic disorders.

Adult abdominal migraine: a new syndrome or sporadic feature of migraine headache? A case report

Abdominal migraine is one of the variants of migraine headache typically occurring in children and coded as 1.3.2 in the revised edition of IHS classification within the group 'Childhood periodic syndromes that are commonly precursors of migraine'. The affected children frequently develop typical migraine later in their life. We report a case of a 23 years old woman affected by attacks of recurrent abdominal pain accompanied by migraine. Abdominal pain attacks started in the adolescence and persisted without headache until the patient was 21. At this time, she experienced migraine pain accompanied by nausea, photophobia and phonophobia and associated to acute abdominal pain. Neuroimaging investigations and laboratory testing excluded any underlying organic disease. Complete remission of abdominal attacks was obtained during 4-month treatment period with pizotifen. Attacks fulfil IHS diagnostic criteria for 'abdominal migraine', although of late onset. This case report suggests that 'abdominal migraine' is a migraineous disorder to be hypothesized in adult patients after having disclosed any organic disease. As reported in the literature, 'adult abdominal migraine' is a sporadic migraine subtype in adult patients and it is not to be considered as a new migraineous syndrome.

Early clinical predictive factors during coma recovery

In severe brain injury patients few studies have examined the role of early clinical factors emerging before recovery of consciousness. Patients suffering from vegetative state and minimally conscious state in fact may need variable periods of time for recovery of the ability to follow commands. In a previous study we retrospectively examined a population of very severe traumatic brain injury patients with coma duration of at least 15 days (prolonged coma), and we found, as significant predictive factors for the final outcome, the time interval from brain injury to the recovery of the following clinical variables: optical fixation, spontaneous motor activity and first safe oral feeding. Psychomotor agitation and bulimia during coma recovery were also favourable prognostic factors for the final outcome. In a further study, also as for the neuropsychological recovery, the clinical variable with the best significant predictive value was the interval from head trauma to the recovery of safe oral feeding. In the present study the presence of psychomotor agitation diagnosed by means of LCF (score 4 = confused-agitated) at the admission time in rehabilitation predicted a statistically significant better outcome at the discharge time in comparison with patients without agitation.

Time interval of oral feeding recovery as a prognostic factor in severe traumatic brain injury

PRIMARY OBJECTIVES

To assess the outcome of severe traumatic brain injury at least 1 year after trauma, in relation to some early clinical prognostic factors occurring during coma recovery.

RESEARCH DESIGN

Retrospective study conducted at the post-coma unit of a rehabilitation hospital.

METHODS AND PROCEDURES

A total of 43 patients were included. All of the patients sustained severe traumatic brain injury and prolonged coma, i.e. coma lasting at least 15 days. Outcome was assessed by means of Glasgow Coma Scale, Barthel Index and Mini Mental State 1 year after trauma, in relation to some early clinical prognostic factors occurring during coma recovery.

MAIN OUTCOMES AND RESULTS

At the 1 year follow-up, a statistically significant correlation was found with both the Glasgow Outcome Scale and the Barthel Index for the time interval from brain injury to recovery of the following clinical variables: optical fixation, ability to obey commands, spontaneous motor activity and first safe oral feeding. Psychomotor agitation and bulimia were also favourable prognostic factors for the final outcome.

CONCLUSIONS

In the present study, first safe oral feeding during coma recovery represents the clinical feature that better predicts the final outcome of patients with severe traumatic brain injury and prolonged coma.

Peripheral and central activation of trigeminal pain pathways in migraine: data from experimental animal models

Animal models for migraine have provided substantial advances on the mechanisms and mediators underlying migraine attacks. The neurogenic inflammation model has helped understanding the perivascular mechanisms underlying the pathophysiology of migraine attacks, the receptors involved and the effect of specific antimigraine drugs. The model based on probing the neuronal effects of nitroglycerin--an organic nitrate known to induce spontaneous-like migraine attacks in predisposed subjects--in the rat has provided interesting insights into the neuroanatomic circuits and neuropharmacological mechanisms involved in the initiation and repetition of migraine attacks [corrected].

New methods for evaluating acute treatments in migraine

The crescendo of activities in the field of migraine therapy, has led to the emergence of a class of molecules, the triptans, that are similar in terms of their activity on serotonin receptors, but which actually differ from one another, as each one has its own peculiar clinical profile. A careful examination of their clinical activity and their validation with objective methods may promote the wise use of each drug, make room for new products, and allow patients to make their own choices.

Assessing the relative incidence of mitochondrial DNA A3243G in migraine without aura with maternal inheritance

OBJECTIVE

To determine whether patients with migraine without aura with maternal "inheritance" are affected by a monosymptomatic form of the MELAS syndrome (mitochondrial encephalomyopathy, lactic acidosis, and strokelike episodes) or carry the most common mitochondrial DNA (mtDNA) mutation associated with MELAS, namely the A3243G transition in the transfer RNA (tRNA)Leu(UUR) gene.

BACKGROUND

The association between migraine and abnormal mitochondrial function has been suggested on clinical, biochemical, and neuroradiological grounds. Migraine attacks with vomiting and cerebral infarctions, most often in the posterior cerebral regions, which are reminiscent of complicated migraine, are typical features of MELAS. The observation that migrainous patients have affected mothers more often than affected fathers suggests a possible role for maternally transmitted genetic factors.

METHODS

We studied 25 patients with migraine with aura whose mothers were also affected. A sensitive polymerase chain reaction restriction fragment length polymorphism analysis was used to detect mutated genomes.

CONCLUSIONS

We failed to detect the MELAS mutation, but migraine may still be associated with point mutations of mtDNA other than A3243G or with as-yet-unidentified nuclear DNA factors related to mitochondrial function.

Cavernous angiomas of the nervous system in Italy: clinical and genetic study

We performed a clinical and genetic study of patients affected by cavernous angiomas (CA) of the nervous system. We examined initial signs and symptoms in sporadic and familial cases. We obtained clinical, neuroimaging and genetic data on 15 Italian patients with CA of the nervous system with positive, doubtful or apparently negative family history. Genetic markers surrounding three different gene regions (7q, 3q and 7p) were analysed. In one small family, genetic linkage was consistent with all chromosome loci. In another family with the unusual association of cerebral and spinal CA, linkage with chromosome 7q and, likely, 7p was excluded, while linkage with locus 3q was possible. Our results indicate that Italian families with CA may show genetic heterogeneity. Non-specific and subtle onset symptoms hide the presence of CA within families. Patients with multiple CA may have silent cerebral lesions confirming the low penetrance of clinical signs in spite of radiological ones.

mtDNA A3243G MELAS mutation is not associated with multigenerational female migraine

The authors searched for mitochondrial DNA (mtDNA) A3243G mutation in peripheral blood leukocytes from female migraine patients with pure matrilinear history of migraine along two or three generations. The current study was designed to exclude any male transmission of the disease. The mutation was absent in all patients. We conclude that mtDNA A3243G mutation does not contribute to the pathogenesis of pure matrilinear multigenerational migraine with or without aura.

Use of Bacille Calmette-Guèrin (BCG) in multiple sclerosis

We studied the effect of Bacille Calmette-Guerin (BCG) vaccine as an immunomodulator in MS. According to the guidelines for clinical trials in MS, a single crossover, MRI-monitored trial was performed in 14 patients with relapsing-remitting MS. After treatment, MRI activity was significantly reduced. No major adverse effects were reported. Adjuvant therapy with BCG vaccine was safe and merits study in MS.

The effects on the central nervous system of nitroglycerin--putative mechanisms and mediators

Nitroglycerin is an organic nitrate that has been used as a vasodilator in the treatment of cardiac diseases for over a century. Only recently it has been demonstrated that the vasodilator effect of this drug depends upon the formation of nitric oxide in the blood vessel wall. However, clinical and research data gathered during the last decades have suggested that nitroglycerin possesses, besides its peripheral vasodilator effect, additional, puzzling biological activities. This organic nitrate compound provokes reflex cardiovascular activities via its interaction with the central sympathetic system. Its cerebrovascular effect, on the other hand, is probably mediated by the local release of neuropeptides. The direct application of nitroglycerin onto brain nuclei causes a prompt increase in the neuronal discharge rate. From a neurological point of view, nitroglycerin consistently induces a specific headache attack in patients suffering from migraine. Because of its temporal pattern and clinical characteristics, nitroglycerin-induced headache cannot be solely ascribed to the a drug-induced vasorelaxation. The demonstration that systemic nitroglycerin administration activates a widespread set of vegetative, nociceptive and neuroendocrine structures in the central nervous system seems to further support the occurrence of central mechanisms in the biological activity of nitroglycerin. Double labeling immunocytochemical and neuropharmacological studies have provided information on the putative neurotransmitters and neurochemical mechanisms involved in nitroglycerin-induced neuronal activation.

Indomethacin increases the effect of isosorbide dinitrate on cerebral hemodynamic in migraine patients: pathogenetic and therapeutic implications

Intracerebral vascular reactivity induced by the nitric oxide (NO) donor isosorbide dinitrate (IDN, 5 mg sublingually) is more major and longer-lasting in migraine patients who develop delayed headache in response to the drug. The headache is purportedly due to neuronally-mediated vascular mechanisms. Indomethacin inhibits prostaglandin synthesis, which is involved in NO generation. Indomethacin also decreases cerebral blood flow by constricting precapillary resistance vessels. In the present study, the hemodynamic effects of indomethacin were evaluated in migraine patients and healthy controls by means of transcranial Doppler monitoring. Indomethacin caused a significant decrease in mean flow velocity in the middle cerebral artery. This was an additional effect to the mean velocity decrease induced by IDN. The interactions between the two drugs suggest that their effects on cerebral hemodynamics (and pain) may be of relevance both in understanding the role of NO in migraine pathogenesis and in evaluating symptomatic treatments for migraine attacks.

Haemodynamic correlates of early and delayed responses to sublingual administration of isosorbide dinitrate in migraine patients: a transcranial Doppler study

In normal subjects or migraine patients, nitrates induce a non-specific early headache caused by vasodilation of intracranial arteries. In migraineurs a delayed headache response to nitrates may have a typical clinical profile of a spontaneous migraine attack. The cerebral vasomotor changes of this delayed response require further study. Isosorbide dinitrate (IDN), an exogenous nitric oxide (NO) donor, was given at a dose of 5 mg sublingually and a bilateral transcranial Doppler device was used to monitor bilateral mean velocity (Vm) changes at the middle cerebral artery (MCA) after IDN administration and until delayed headache occurred. Spontaneous migraine-like headache occurred only in migraine patients during the delayed phase after IDN and was accompanied by a prolonged arterial vasodilation compared to normal subjects. This vasomotor response was more evident on the customary side of the head pain of a spontaneous migraine attack. Our findings suggest a particular vasomotor response to nitrates in migraine patients. This response is associated with the nitrate-induced headache and it is not evident in healthy pain-free controls during the delayed phase after administration of an NO donor. Owing to the short half-life of NO, the neurotransmitter released by IDN, and because of the late onset of headache, we believe the mechanism is unlikely to be vascular in origin, but may have a neurogenic component.

Dopamine hypersensitivity in migraine: role of the apomorphine test

We investigated the effects of apomorphine administration at two different doses (2-10 micrograms/kg, s.c.) in 35 migraineurs in headache-free period and in 20 age-matched healthy control subjects, with and without pretreatment with domperidone. Neither patients or controls complained of headache at either dose, whereas at the dose of 10 micrograms/kg migraineurs showed a statistically significant higher incidence of dopaminergic symptoms (nausea, vomiting, drowsiness, yawning, dizziness, sweating) than controls. Furthermore, symptoms due to postsynaptic dopamine receptors activation (i.e., nausea and vomiting) only appeared in migraineurs. No symptom, however, resembled those characterizing a spontaneous migraine attack. In conclusion, migraineurs show a lower threshold for dopamine receptor activation than normal subjects.

Epileptic seizure during aspirin and caffeine withdrawal in a drug induced headache

A 45-year-old female migraineur with a long-standing history of drug-induced headache is described. She had been abusing caffeine (250 mg/day) and aspirin (5 gr/day). On the third day after discontinuation a withdrawal syndrome characterized by headache and a generalized tonic-clonic seizure occurred. The temporal association makes it likely that the convulsion episode in an integral component of the withdrawal syndrome in this patient. This extra feature of the withdrawal syndrome has never been described after caffeine and/or aspirin interruption. Possible pathogenetic mechanisms are discussed.

Increased density of dopamine D5 receptor in peripheral blood lymphocytes of migraineurs: a marker for migraine?

The expression of dopamine D5 receptor was investigated in peripheral blood lymphocytes of 11 migraine patients and of ten healthy control subjects using a radioligand binding technique with [3H]SCH 23390 as a ligand. [3H]SCH 23390 is a benzazepine derivative with potent antagonist properties at the dopamine D1-like receptors. [3H]SCH 23390 was specifically bound to peripheral blood lymphocytes of migraineurs and control subjects in a manner consistent with the labelling of a dopamine D5 receptor. In migraineurs a statistically significant higher density of lymphocyte dopamine D5 receptor compared with controls was noticeable, whereas the affinity of the radioligand was unchanged. The increased density of dopamine D5 receptor in peripheral blood lymphocytes may reflect the dopaminergic hypersensitivity displayed by migraineurs and may represent a relatively simple and reliable peripheral marker of altered dopaminergic function.

Causes and mechanisms of primary headaches: toward a bio-behavioral model

Pathophysiological mechanisms of primary headache remain obscure, despite of numerous hypotheses that have been postulated for either migraine and cluster headache. Human experimental models are not available, however, observation of clinical features of migraine or cluster headache attacks support animal studies documenting the development of neurogenic inflammation in tissues receiving trigeminal innervation. The latter studies provided also the background for better understanding the mechanism of action of aborting drugs such as sumatriptan and dihydroergotamine. The debate is whether the primary cause of migraine and other neurovascular headaches is central or peripheral in origin. Trigger factors (stressful events) and personality traits in migraine patients suggest that activation of neurovascular systems is secondary to more complex events taking place in the central nervous system.

Causes and mechanisms of primary headaches: toward a bio-behavioral model

Pathophysiological mechanisms of primary headache remain obscure, despite of numerous hypotheses that have been postulated for either migraine and cluster headache. Human experimental models are not available, however, observation of clinical features of migraine or cluster headache attacks support animal studies documenting the development of neurogenic inflammation in tissues receiving trigeminal innervation. The latter studies provided also the background for better understanding the mechanism of action of aborting drugs such as sumatriptan and dihydroergotamine. The debate is whether the primary cause of migraine and other neurovascular headaches is central or peripheral in origin. Trigger factors (stressful events) and personality traits in migraine patients suggest that activation of neurovascular systems is secondary to more complex events taking place in the central nervous system.

Neurogenic model of migraine

Activation of peripheral trigeminal fibers induces neurogenic inflammation in rat dura mater, as well as vascular and mat cell changes. These changes parallel an increase of vasodilating and permeability promoting peptides in venous effluent of the cephalic circulation. The experimental model of electrical trigeminal ganglion stimulation or systemic capsaicin administration has proven effective in detecting cellular activation in brainstem trigeminal nuclei. Animal experimental models of trigeminovascular activation and the effects of antimigraine drugs on functional and morphological consequences of such activation provide the background for further models and for developing pharmacological strategies in this field.

Basilar migraine with electroencephalographic findings of occipital spike-wave complexes: a long-term study in seven children

Basilar migraine is characterized by headache preceded by prodromal symptoms and signs of posterior cerebral circulation dysfunction. Few studies have focused on EEG findings in this condition or on the prognosis of occipital spike-wave complexes observed in either migraine or epilepsy. We now report a long-term follow-up (8-16 years) in seven children affected by basilar migraine who had EEG findings of occipital spike-wave complexes. Basilar migraine resolved and the EEG became normal in all subjects during the observation period, as did migraine with aura and seizures which developed in some of the patients after basilar migraine attacks ceased.

5-Hydroxytryptamine receptor agonists for the abortive treatment of vascular headaches block mast cell, endothelial and platelet activation within the rat dura mater after trigeminal stimulation

Antidromic stimulation of small caliber trigeminal axons causes neurogenic inflammation in the dura mater and tongue as evidenced by marked increases in mast cell activation, protein extravasation, as well as in the numbers of endothelial cytoplasmic vesicles, endothelial microvilli and platelet aggregates within ipsilateral post-capillary venules. In this report, we examined the effects of pretreatment with serotonin1 receptor agonists, dihydroergotamine (50 micrograms/kg, i.v.) and sumatriptan (100 micrograms/kg, i.v.) on the light and electron microscopic changes which develop after trigeminal ganglion stimulation. Both dihydroergotamine and sumatriptan are useful in the acute treatment of vascular headaches and bind with high affinity to 5-HT1D receptors. Both drugs decreased significantly the number of dural vessels showing endothelial or platelet changes and the numbers of activated mast cells, but did not affect the neurogenic response in the tongue. The drugs also blocked the accumulation of horseradish peroxidase reaction product within the endothelium and perivascular space on the stimulated side. The receptor is not present on trigeminovascular fibers innervating extracranial cephalic tissues. Drug mechanism probably involves inhibition of a proximal step in the pathophysiological cascade (e.g., via activation of a prejunctional receptor) because (a) receptors for sumatriptan have not been identified on mast cells whereas the inflammatory response was attenuated in mast cells as well as within platelets and the endothelium and (b) previous work indicates that sumatriptan and dihydroergotamine block neurotransmitter release. Hence, constriction of vascular smooth muscle mediated by postjunctional 5-hydroxytryptamine receptors is unlikely to explain the anti-inflammatory actions of dihydroergotamine or sumatriptan reported here.

Ultrastructural evidence for neurogenically mediated changes in blood vessels of the rat dura mater and tongue following antidromic trigeminal stimulation

We investigated the effects of unilateral electrical trigeminal ganglion stimulation (0.1 or 1.0 mA, 5 Hz, 5 ms, 5 min) on the morphology of blood vessels within the rat dura mater and tongue using light and transmission electron microscopy. Stimulation at both intensities caused changes which were confined to the ipsilateral post-capillary venules except in the tongue where arterioles were affected as well. Changes were more marked after 1.0 mA. Dramatic increases in the numbers of endothelial pinocytotic vesicles were found along the luminal and abluminal surfaces ipsilateral to the stimulation. Tight junctions remained largely intact, except that injected ferritin particles were occasionally trapped inside these junctions. Cytoplasmic microvilli and endothelial blebs were sometimes present as well. Approximately 80% of the examined dural post-capillary venules showed one or more of these endothelial changes. Horseradish peroxidase injected intravenously 5 min prior to stimulation was detected in the extracellular space surrounding dural blood vessels and within pinocytotic vesicles. Ferritin injected similarly, was also localized in post-capillary venule walls, interstitial spaces, intraendothelial vesicles and in vacuoles. Platelet accumulation and aggregation were present in approximately 10% of post-capillary venules in dura and tongue. These changes were associated with mast cell secretion, but neither vascular nor mast cell activation was observed in adult rats in whom C-fibers were destroyed during the neonatal period with capsaicin. The present observations provide morphological evidence which supports findings from previously reported albumin tracer studies suggesting enhanced transport and endothelial activation following electrical stimulation of small caliber afferent fibers.

The trigemino-vascular system and migraine

Neurogenic inflammation has been proposed as a possible pathogenetic mechanism for migraine and cluster headache. Antidromic stimulation of trigeminal fibers causes plasma protein extravasation, mast cell activation and degranulation, vacuolation and increase in endothelial vesicle number within post capillary venules in rat dura mater. The antimigraine drugs sumatriptan and dihydroergotamine block the development of plasma extravasation and ultrastructural changes, as well as plasma calcitonin gene-related peptide (CGRP) increase in the superior sagittal sinus following electrical trigeminal ganglion stimulation. Sumatriptan and dihydroergotamine bind with high affinity to the 5-HT1D/1B receptors, thus suggesting that their neurogenic antiinflammatory activity is mediated by activation of 5-HT autoreceptors present on sensory fibers innervating blood vessels in dura mater.

Dihydroergotamine and sumatriptan attenuate levels of CGRP in plasma in rat superior sagittal sinus during electrical stimulation of the trigeminal ganglion

Vasoactive neuropeptides, present in unmyelinated C-fibers, can be released from perivascular sensory axons by antidromic stimulation, to mediate vasodilation and extravasation of plasma protein (neurogenic inflammation). In this report, the effects of antidromic trigeminal stimulation on levels of calcitonin gene-related peptide (CGRP) in plasma were examined in the superior sagittal sinus and the effects of drugs that have been shown previously to block extravasation of neurogenic plasma determined. The levels of immunoreactive CGRP in plasma were measured both before and during electrical stimulation of the trigeminal ganglion (0.1-1.0 mA, 5 msec, 5 Hz, 3-5 min), using a highly specific and sensitive immunochemiluminometric assay. Levels of CGRP increased and became maximal within the first minute of stimulation. The increases were detectable at intensities of current as small as 0.1 mA. Peak levels related to the intensity of the stimulus. Samples from femoral arterial blood did not show concomitant increases at 1 min. Pretreatment with dihydroergotamine (DHE) (50 micrograms/kg i.v.) did not change the baseline levels but decreased levels of CGRP during stimulation (0.3 mA), by 55% at 1 min and 50% at 3 min. Sumatriptan (GR43175) (300 micrograms/kg) attenuated the increase by 57% at 3 min (0.1 mA, 5 msec, 5 Hz) but not after 1 min of stimulation, although decreases were observed at the latter time during an individual experiment. Drug-induced attenuation of levels of CGRP in plasma may reflect inhibition of release, to thereby provide evidence to explain blockade of neurogenic extravasation of plasma.

Transcranial Doppler (TCD) after nitroglycerin in migraine without aura

Nitroglycerin, a vasodilating agent, was administered sublingually in migraine without aura patients and in healthy volunteers. Systolic, diastolic and time-mean flow velocity and pulsatility index, were measured by transcranial Doppler sonography in the major intracranial arteries before and after nitroglycerin administration. Following nitroglycerin administration, a significant decrease in systolic and time-mean velocity and pulsatility index was observed in migraine patients, whereas in control subjects only time-mean velocity decreased significantly. Based on those findings we hypothesize a more marked responsiveness to nitroglycerin in migraine patients as compared to healthy subjects.

Jun B, c-jun, jun D and c-fos mRNAs in nucleus caudalis neurons: rapid selective enhancement by afferent stimulation

In situ hybridization using cDNAs complementary to specific regions of the mRNAs encoding 3 members of the jun transcription factor gene family and c-fos reveals modest levels of hybridization over superficial laminae of the nucleus caudalis of the spinal tract of the trigeminal in sections taken from unstimulated brains. Jun B expression is markedly and rapidly enhanced ipsilateral to electrical stimulation of the trigeminal ganglion. C-fos mRNA levels also show changes, especially after higher intensity stimulation. Smaller alterations in c-jun (jun A) and jun D do not reach statistical significance. In each instance of altered expression, more neurons express hybridization densities above background levels after stimulation. Parallels between these alterations and changes in the expression of preproenkephalin in these same neuronal populations are discussed.

Evidence for 5-HT1B/1D receptors mediating the antimigraine effect of sumatriptan and dihydroergotamine

Neurogenic plasma extravasation, endothelial cell activation (increase in vesicle number and vacuole formation), platelet aggregation and adhesion, and mast cell degranulation occur selectively in post-capillary venules of the dura mater following electrical trigeminal ganglion stimulation, and are mediated by release of neuropeptides from perivascular unmyelinated C fibres. Pre-treatment with the antimigraine drugs dihydroergotamine and sumatriptan, two drugs that bind with high affinity to 5-HT1B/1D receptors, markedly attenuated plasma protein extravasation induced by electrical trigeminal ganglion stimulation. Trigeminal stimulation increased plasma calcitonin gene-related peptide levels in rat superior sagittal sinus. Pre-treatment with dihydroergotamine and, to a lesser extent, sumatriptan, attenuated this increase. Both drugs reduced morphological changes in post-capillary venules and mast cells within dura mater following electrical trigeminal ganglion stimulation. Plasma protein extravasation was selectively blocked in dura mater (but not in extracranial tissues) by pre-treatment with those receptor agonists showing a rank order of potency suggesting a 3-HT1B/1D interaction (5-CT greater than 5-BT greater than DHE greater than sumatriptan greater than 8-OH-DPAT). Pre-treatment with 5-HT2 and 5-HT3 antagonists was not effective. Taken together, these data are consistent with the interpretation that putative 5-HT-1B/1D receptors located on sensory fibres are coupled to inhibition of peptide release and blockade of neurogenic inflammation. An important therapeutic action of ergot alkaloids and sumatriptan in migraine headaches is so defined.

Migraine and epilepsy with infantile onset and electroencephalographic findings of occipital spike-wave complexes

An EEG finding of temporo-occipital or temporo-parieto-occipital spike-wave complexes, suppressed by eye opening, coexisting with classical migraine, was observed in 14 children; in 13 of these patients, seizures were present. Classical migraine, visual phenomena and seizures coexisted in different clinical patterns.

Further characterization of the putative 5-HT receptor which mediates blockade of neurogenic plasma extravasation in rat dura mater

1. We describe the effects of pretreatment with 5-hydroxytryptamine (5-HT) receptor agonists and antagonists on neurogenically-mediated plasma protein extravasation ([125I]-albumin) in rat dura mater and in extracranial tissues (temporalis muscle fascia, conjunctiva, eyelid and lip) induced by electrical stimulation of the right trigeminal ganglion. 2. Leakage of [125I]-bovine serum albumin from blood vessels in dura mater following high intensity stimulation (1.2 mA, 5 ms, 5 Hz for 5 min) was significantly reduced by the intravenous administration of drugs active at 5-HT receptors with some selectivity for the 5-HT1 receptor subtypes: 5-carboxamidotryptamine (5-CT) (threshold dose, 1 ng kg-1); 5-benzyloxytryptamine (5-BT) (10, 30 or 100 micrograms kg-1); 8-hydroxydipropylaminotetralin (8-OH-DPAT) (300 micrograms kg-1); and as previously reported, sumatriptan (100 micrograms kg-1), dihydroergotamine (DHE) (50 micrograms kg-1); ergotamine tartrate (100 micrograms kg-1) and chronically administered methysergide (1 mg kg-1). 3. The putative 5-HT receptor antagonist, metergoline 100 micrograms kg-1, inhibited partially the effect of sumatriptan in dura mater providing additional evidence for a 5-HT1 receptor subtype-mediated mechanism, although it was not effective against 5-CT (1 ng kg-1). Methiothepin (300 micrograms kg-1) did not affect the response to sumatriptan. When administered at high concentrations (1 mg kg-1) methiothepin and metergoline decreased plasma protein extravasation in rat dura mater. 4. Pretreatment with the 5-HT2 receptor antagonists pizotifen, 300pugkg 1, or ketanserin, 300,ugkg ', or the 5-HT3 receptor antagonists MDL 72222, 300,ugkg-1, or ICS 205-930, 300pgkg-1, did not affect plasma protein leakage following electrical trigeminal stimulation. Blockade by sumatriptan of plasma protein extravasation was not inhibited by pizotifen (300,ug kg-1) or MDL 72222 (300pg kg- '). 5. The 5-HT receptor(s) mediating this response were present only on intracranial tissues innervated by the trigeminal nerve; plasma protein extravasation in extracranial tissues was not blocked by pretreatment with the equivalent or higher concentrations of the above drugs following low intensity trigeminal stimulation (0.1 mA, 5 ms, 5 Hz). 6. The putative 5-HT receptor(s) mediating this response were not present on sympathetic fibres innervating dura mater since unilateral removal of the superior cervical ganglion did not prevent the development of plasma protein extravasation nor did it affect the blockade by sumatriptan IOOpug kg- '. 7. The above pharmacological data suggest that intracranial vessels possess 5-HT receptor(s) which are coupled to inhibition of neurogenically-mediated plasma protein extravasation. These receptors cannot be detected on extracranial cephalic blood vessels innervated by the trigeminal nerve, although available evidence strongly suggests that the 5-HT receptors reside on perivascular trigeminal nerve fibres. The rank order of effective doses (threshold concentrations; 5-CT < 5-BT < DHE < sumatriptan < 8-OHDPAT) is most consistent with a 5-HTlB- or 5-HTlD-mediated response, among the known 5-HT1 family of receptors. However, the lack of effect of methiothepin against the actions of sumatriptan, or metergoline against the effects of 5-CT suggest important differences and the possibility that a previously unrecognized 5-HT receptor(s) is involved in this response.

Neuroeffector functions of sensory fibres: implications for headache mechanisms and drug actions

The results of recent investigations designed to elucidate the neuroeffector functions of sensory fibres, the cause of migraine headache and the mechanism of action of antimigraine drugs are reviewed and discussed. Neurogenic inflammation (vasodilatation and neurogenic plasma extravasation) is one explanation for the development of headaches and the blood flow changes which occur during migraine headache. Numerous studies have recently been carried out on rats and guinea-pigs into the effects of antimigraine agents, including ergot alkaloids, sumatriptan and non-steroidal anti-inflammatory drugs (NSAIDs), on neurogenic plasma protein extravasation in the dura mater induced by electrical stimulation of trigeminal ganglia or systemic administration of capsaicin. It is known that the dura mater is able to produce headaches in man. Ergot alkaloids have been shown to block neurogenic inflammation via a C-fibre dependent neuronal mechanism. Sumatriptan appears to act fairly similarly although, whereas the ergot alkaloids are non-selective for either 5-hydroxytryptamine (5-HT; serotonin) receptors or 5-HT1, sumatriptan is selective for 5-HT1 receptors. The antimigraine action of NSAIDs may be via either an effect on blood vessels or an effect on the nerve fibre. The antimigraine effects of ergot alkaloids, sumatriptan and NSAIDs are discussed in the light of the common vasoconstrictor actions of these agents and knowledge that vasodilatation is apparently not responsible for migraine headache pain in most cases.

Trigeminal sensory fiber stimulation induces morphological changes reflecting secretion in rat dura mater mast cells

Mast cells are involved in allergic reactions, but may also participate in neurogenic inflammation. The morphology of mast cells in rat dura mater and tongue was evaluated by histochemistry, as well as by scanning and transmission electron microscopy following unilateral trigeminal ganglion stimulation (5 min, 5 Hz, 5 ms, and 0.02, 0.1 or 1.0 mA). Mast cells in dura and tongue of normal animals were numerous, perivascular and often in close proximity to nerve fibers. After 5 min of electrical stimulation, mast cells contralateral to the stimulation showed histochemical characteristics of normal peripheral tissue mast cells (Safranin-positive), and by electron microscopy appeared homogeneous with numerous intact electron-dense granules. On the stimulated side, however, the staining characteristics of mast cells showed changes indicating progressive intracellular loss of their granular content. In addition, the total number of stainable mast cells decreased at all three stimulus intensities, but reached significance only at 0.1 and 0.02 mA. Ultrastructural evidence of granule changes consistent with secretion were observed although degranulation was not observed until 20 min after stimulation. There were no mast cell changes after electrical trigeminal stimulation in adult rats treated as neonates with capsaicin to destroy small caliber sensory afferent axons. These results suggest that mast cells may secrete in response to electrical stimulation of trigeminal axons, possibly mediated by antidromic release of neuropeptides, and may participate in the development of neurogenic inflammation.

Preproenkephalin upregulation in nucleus caudalis: high and low intensity afferent stimulation differentially modulate early and late responses

Nucleus caudalis expression of preproenkephalin mRNA changes following lesions depleting small-caliber primary afferent fibers and after stimulation of trigeminal afferents at different intensities. Animals treated neonatally with capsaicin display reduced preproenkephalin gene expression in nucleus caudalis neurons. Stimulation of normal animals at low intensities enhances preproenkephalin expression in a bimodal temporal pattern. High intensity stimulation is effective only at later time points in normal animals, but it causes both early and late effects on preproenkephalin expression when applied to animals neonatally lesioned with capsaicin. Transsynaptic regulation of preproenkephalin expression in pain-modulating areas of the nucleus caudalis of the trigeminal nerve thus depends on the specific type of primary afferent input. The rapid responses noted after selective large fiber stimulation appear to be suppressed by coactivation of small caliber fibers. Later responses appear less influenced by the quality of the eliciting afferent stimulus.

The antimigraine drug, sumatriptan (GR43175), selectively blocks neurogenic plasma extravasation from blood vessels in dura mater

1. We describe the actions of GR43175, a 5-hydroxytryptamine1 (5-HT1)-like receptor agonist, on neurogenically-mediated plasma protein extravasation within an important pain-sensitive intracranial tissue, the dura mater. 2. GR43175 markedly attenuated extravasation of 125I-albumin from blood vessels within ipsilateral dura mater when administered to rats (100 micrograms kg-1) fifteen minutes before unilateral electrical trigeminal stimulation (1.2 mA, 5 Hz, 5 ms, 5 min); the ratio (stimulated/unstimulated sides) decreased from 1.81 to 1.23, P less than 0.005). 3. GR43175 (100 micrograms kg-1, i.v., rats; 30 micrograms kg-1, guinea-pigs) decreased the leakage of radiolabelled albumin from 163% to 119% (P less than 0.005, guinea-pig) or from 174 to 118% (P less than 0.05, rat) above vehicle-treated controls when injected ten minutes before systemic capsaicin treatment (0.5 or 1 mumol kg-1, i.v.). 4. GR43175 (30-300 micrograms kg-1) did not block plasma protein extravasation within extracranial tissues of rats and guinea-pigs innervated by the trigeminal nerve (conjunctiva, eyelid and lip). 5. The protein leakage which followed the i.v. administration of 5-HT (1 mumol kg-1) or neuropeptides which mediate neurogenic plasma extravasation, substance P (0.3 nmol kg-1 or 1 nmol kg-1) and neurokinin A (1 nmol kg-1), was not blocked by GR43175 (100, 300 micrograms kg-1) despite the presence of leakage in amounts equivalent to that following neurogenic stimulation. 6. GR43175 (100 micrograms kg-1) decreased bradykinin (10 mumol kg-1)-induced extravasation from 142 to 115% above vehicle-treated animals (P less than 0.05). 7. These results demonstrate an important action of GR43175 on neurogenic mechanisms in dural blood vessels. Since the ergot alkaloids possess a similar profile of drug activity, it is suggested that drugs useful in the treatment of acute vascular headaches may share a similar mechanism of action.

Preproenkephalin mRNA expression in nucleus caudalis neurons is enhanced by trigeminal stimulation

Electrical stimulation of trigeminal afferents increases expression of preproenkephalin mRNA in neurons of laminae I and II of the trigeminal nucleus caudalis in animals sacrificed 6 hours after the end of stimulation. More neurons express, and positive cells express at higher levels. These neurons thus express the mRNA corresponding to a major pain-modulating neurotransmitter gene with significant input-related plasticity.

Postocclusive cerebral hyperemia is markedly attenuated by chronic trigeminal ganglionectomy

Marked hyperemia may develop in brain following temporary cessation of blood flow and is associated with the morbidity following cardiac arrest, stroke, and head injury. Regional cerebral blood flow was measured using radiolabeled microspheres and compared in 10 symmetrical regions after chronic unilateral trigeminal ganglionectomy (n = 8), trigeminal rhizotomy (n = 4), or sham operation (n = 4) following 10 min of combined brachiocephalic-left subclavian occlusion and hypotension (mean arterial blood pressure less than 50 mmHg) in cats. Blood flow was symmetrical at rest in the three groups and was undetectable during the ischemic period. Within 30 min after re-establishing flow, values in cortical gray matter increased symmetrically to approximately 250 ml.100 g-1.min-1 in the rhizotomy and the sham groups. Increases of similar magnitude were measured on the intact side following trigeminal ganglionectomy but flow was attenuated by greater than 50% ipsilateral to the ganglionectomy. Marked hyperemia developed during reperfusion in thalamus, caudate, deep cortical white matter, midbrain, and pons, but no asymmetries were present in the three groups. These data suggest that cortical hyperemia is mediated by trigeminal neurogenic mechanisms via axonal reflexlike mechanisms and suggest the importance of therapeutic strategies based on blockade of this nerve or its constituent neuropeptides.