Safety findings from CENTURION, a phase 3 consistency study of lasmiditan for the acute treatment of migraine.

BACKGROUND: Lasmiditan (LTN) is a selective 5-HT1F receptor agonist for the acute treatment of migraine in adults. We present detailed safety findings from the placebo-controlled, double-blind Phase 3 study, of LTN treatment across 4 attacks (CENTURION). METHODS: Patients were randomized 1:1:1 to LTN 200 mg (LTN200), LTN100, or a control group that received placebo for 3 attacks and LTN50 for either the 3rd or 4th attack (1:1). Safety analyses were conducted for patients who took ≥1 dose of study drug and, in some cases, those who took all 4 doses. RESULTS: Overall, 1471 patients treated 4494 attacks. The incidences of treatment-emergent serious adverse events (SAEs) were - placebo, n=2 (0.4 %); LTN100, n=1 (0.2 %); LTN200, n=2 (0.4 %); no specific treatment-emergent SAE was reported in more than one patient. The most common treatment emergent adverse events (TEAEs) with lasmiditan were dizziness, paresthesia, fatigue, nausea, vertigo, and somnolence; the vast majority were mild or moderate in severity. The incidences of these TEAEs were highest during the first attack and decreased during subsequent attacks. For patients who experienced a common TEAE with the first attack, less than 45 % experienced the same event in subsequent attacks. Patients who did not experience an event in the 1st attack infrequently experienced the same event in subsequent attacks. The time of onset of the common TEAE ranged from ~40 min to 1 h (dependent upon TEAE) and, for individual TEAE, the onset was similar across attacks. Duration was dependent upon TEAE and attack. It was shortest for paresthesia (< 2 h for all attacks); it ranged from 1.8 to 5.5 h for other common TEAEs and was generally similar across attacks. Serotonin syndrome was reported for 2 patients post LTN dosing; there were no meaningful differences across treatment groups in suicidality; there was no evidence of an increase in motor vehicle accidents. CONCLUSION: In this blinded, controlled, multiple-attack study, LTN was associated with generally mild or moderate CNS-related TEAEs of short duration. TEAEs tended to decrease in frequency across the 4 attacks. TRIAL REGISTRATION: NCT03670810.

Pitx3-deficient aphakia mice display unique behavioral responses to psychostimulant and antipsychotic drugs.

The dorsal (A9) and ventral striatum (A10) of the midbrain mediate many of the effects of psychoactive drugs that alter emotion, cognition, and motor activity within the contexts of therapy or abuse. Although transgenic and knockout technologies have enabled development of genetic models to dissect contributions of specific dopamine (DA) receptor subtypes to psychoactive drug effects, few models exist that can distinguish contributions of A9 versus A10 circuits. Pitx3 is a transcription factor enriched in DA neurons. Aphakia (ak) mice deficient in Pitx3 show selective loss of nigrostriatal DA, while other DA pathways are relatively spared, and therefore could be a useful tool for investigating the role of this subclass of DA projections. We investigated the effects of stimulants amphetamine, apomorphine, and MK-801 and the antipsychotic drug haloperidol on behavior in ak mice. Whereas wild-type mice showed the characteristic locomotor hyperactivity in response to amphetamine (5 mg/kg) and apomorphine (4 mg/kg), these drugs caused a paradoxical suppression of locomotor hyperactivity in ak mice. MK-801 (0.2 mg/kg) induced hyperactivity was maintained in both wt and ak mice. Additionally, mutant but not wild-type mice were insensitive to the cataleptic effects of haloperidol (1 mg/kg). These studies indicate that the nigrostriatal DA circuit plays a critical role in maintaining normal responsiveness to psychotropic drugs that either stimulate or block DA neurotransmission. We propose that ak mice may represent a valuable genetic model not only to study Parkinson's disease, but also to dissect the pathophysiologic and pharmacotherapuetic mechanisms of other DA-mediated disorders such as attention-deficit hyperactivity disorder, drug abuse and schizophrenia.

Acoustic startle, conditioned startle potentiation and the effects of 8-OH-DPAT and buspirone in rats selectively bred for differences in 8-OH-DPAT-induced hypothermia.

HDS and LDS rats are the result of selective breeding for differences in the hypothermic effects of the 5-hydroxytryptamine-1A (5-HT1A) agonist 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT); HDS (high DPAT sensitivity) rats exhibit a much greater hypothermic response than do LDS (low DPAT sensitivity) rats. It is possible that this genetically-based difference in sensitivity to the hypothermic effects of the 5-HT1A agonist is associated with a change in other behaviours modulated by 5-HT neurotransmission. The present study examined the acoustic startle response, the classically conditioned enhancement of startle, and the effects of 8-OH-DPAT and buspirone treatments on these measures, in HDS and LDS rats. On four test sessions, HDS and LDS rats were exposed to 20 acoustic startle stimuli (115 dB; 40 ms in duration). For each test session, 10 trials were presented in the dark (Noise Alone trials) and 10 were presented at the end of a 3500 ms presentation of a 15 W signal light (Light + Noise trials). LDS rats exhibited greater startle amplitude than did HDS rats on Noise Alone trials. Initially, there was no difference in startle amplitude on the Light + Noise versus Noise Alone trials in either LDS or HDS rats. By the end of the first test session, however, and continuing throughout the remainder of the four test sessions, startle amplitude on the Light + Noise trials was significantly greater than in the Noise Alone trials. The magnitude of this startle-potentiated startle (SPS) effect did not differ in HDS versus LDS rats. SPS testing was continued for three additional sessions; in these sessions the effects of acute treatment with the 8-OH-DPAT (125 microg/kg, subcutaneously (s.c.)), the novel anxiolytic buspirone (4 mg/kg, intraperitoneally (i.p.)) or vehicle (distilled water) were determined. Both 8-OH-DPAT and buspirone treatment increased baseline (Noise Alone) startle amplitude in LDS rats but not in HDS rats. With respect to the conditioned enhancement of startle, buspirone reduced the SPS effect in both HDS and LDS rats, whereas 8-OH-DPAT did not change the conditioned enhancement effect in either rat line. These findings suggest that the selective breeding for differences in 8-OH-DPAT-induced hypothermia has resulted in changes in other behaviours and also changes in the response to 5-HT1A agonist treatment. Moreover, these findings are consistent with the hypotheses that: (a) 5-HT1A agonist actions underlie the buspirone-induced and 8-OH-DPAT-induced increases in Noise Alone startle amplitude; whereas (b) the buspirone-induced reduction in potentiated startle is not the result of 5-HT1A agonist actions of this compound.

A nonextinction procedure for long-term studies of classically conditioned enhancement of acoustic startle in the rat.

In the Fear-Potentiated Startle (FPS) paradigm, the reflexive response to a noise burst is enhanced when it is presented with a stimulus (typically a light) that previously had been paired with the presentation of an aversive stimulus, usually an electric shock. In the FPS paradigm, the conditioned effect is demonstrated under conditions of extinction, i.e., the light is not paired with the shock during FPS testing. Because of this, the FPS paradigm is of somewhat limited value as a longitudinal measure for studying classically conditioned enhancement of acoustic startle. The present studies report a simple and reliable nonshock procedure for studying classically conditioned potentiation of acoustic startle in the rat that does not utilize testing under conditions of extinction. Naive rats were exposed to 5-or 3-days/week startle test sessions for up to 20 weeks. Twenty (20) startle stimuli (115 dB noise bursts; 40 ms in duration) were presented during each session. Half of these startle stimuli were presented in darkness and half were immediately preceded by a 3500-ms presentation of a 15-W light. With this paradigm, the effects of pairing the light with the startle noise burst could be studied across many test sessions in the absence of extinction training. The light did not increase startle amplitude on the first few startle trials of the first test session. By the end of the first session, however, and continuing for many weeks of testing, startle responses in the presence of the light were significantly greater (by 30-40%) than in the absence of the light. The finding that the startle stimulus itself can serve as an unconditioned stimulus (UCS) to enhance subsequent startle responses replicates an earlier finding. The persistence of this Startle-Potentiated Startle (SPS) effect across multiple weeks of testing is in contrast to that earlier report.

Conflict behavior and the effects of 8-OHDPAT treatment in rats selectively bred for differential 5-HT(1A)-induced hypothermia.

The high DPAT sensitivity (HDS) and low DPAT sensitivity (LDS) rat lines are the result of selective breeding for differences in the hypothermic response to acute treatment with the 5-HT(1A) receptor agonist 8-hydroxydipropylaminotetralin (8-OHDPAT). The HDS rats exhibit a much greater hypothermic response than do the LDS rats. The present study examined conflict anxiety-like behavior and the effects of acute challenges with 8-OHDPAT and phenobarbital (PhB) on conflict behavior in HDS and LDS rats. Water-restricted (24-h deprivation) HDS and LDS rats were trained to drink from a tube that was occasionally electrified. The 5-s bouts of drinking tube electrification occurred on a fixed interval (FI) 30-s schedule and were signaled by the presence of a tone. Under this schedule, responding is suppressed approximately 10-fold during the tone-on periods compared to the no-tone periods. After two weeks of training in this repeated measures drink suppression conflict paradigm, the effects of acute challenges with 8-OHDPAT (30-500 microg/kg, SC, +10 min) or PhB (20 mg/kg, IP, +10 min) were determined. In control (i.e. , non-drug) conflict test sessions, rats of the HDS line accepted significantly fewer shocks than did rats of the LDS line. Acute treatment with 8-OHDPAT resulted in a modest increase in punished responding (maximum increase: +30-40 shocks/session) in both lines at doses of 60 and 125 microg/kg. Higher doses produced significant general behavioral disruption and substantial reductions in water intake (unpunished responding) in both HDS and LDS rats. Neither the increase in shocks received nor the decrease in water intake produced by these 8-OHDPAT challenges differed between HDS and LDS rats. In both lines, acute PhB treatment resulted in a more dramatic increase in punished responding than did 8-OHDPAT (+55-65 shocks/session) and an increase in water intake. The effects of PhB also did not differ between HDS and LDS rats. These data suggest that the HDS and LDS rats exhibit differences in baseline anxiety-like behavior in the conflict task, but do not differ in their response to acute challenges with PhB or 8-OHDPAT.