Prepulse inhibition of the startle response in risperidone-treated patients: comparison with typical antipsychotics

Individuals with schizophrenia are known to show deficits in prepulse inhibition (PPI) of the startle response. PPI refers to a response suppression in reaction to a strong startling stimulus, if preceded briefly by a weak non-startling stimulus and represents a well-established animal model to investigate information processing deficits in schizophrenia. This study examined PPI of the startle acoustic response in schizophrenic patients given typical antipsychotics or a second generation atypical antipsychotic, risperidone, using a naturalistic between-subjects design. Two groups of male schizophrenic patients: (i) stable on a range of typical antipsychotics (n = 20), and (ii) stable on risperidone (n = 10) were tested for PPI (prepulse-to-pulse intervals: 30, 60, and 120 ms, prepulses 15 dB above the background) of the acoustic startle response, and compared with a group of healthy male subjects (n = 20). Patients on typical antipsychotics showed significantly less PPI with 30 and 60 ms prepulse trials than healthy subjects. Risperidone-treated patients did not differ from healthy subjects for PPI with any prepulse trials. Further longitudinal within-subject studies are now required to examine whether risperidone is superior to typical antipsychotics in improving information processing functions, as assessed by PPI of the acoustic startle response, in treatment-responsive male patients with schizophrenia.     

Patients with adverse mood effects from combined oral contraceptives have lower levels of prepulse inhibition than healthy controls

BACKGROUND: Negative mood symptoms remain one of the major reasons for discontinuation of oral contraceptive pills. The aim of this study was to compare acoustic startle response and prepulse inhibition (PPI) in women with different experience of oral contraceptive pills. METHODS: Thirty women currently on combined oral contraceptives (COCs) with no reports of adverse mood symptoms, 28 women currently on COCs and experiencing mood-related side effects from treatment, 27 women who had discontinued COC use for reasons other than adverse mood symptoms and 32 women who had discontinued COC use due to adverse mood effects were included. The eyeblink component of the acoustic startle reflex was assessed using electromyographic measurements of musculus Orbicularis Oculi. Twenty pulse-alone trials (115dB 40ms broad-band white noise) and 40 prepulse-pulse trials were presented. The prepulse stimuli consisted of a 115dB 40ms noise burst preceded at a 100ms interval by 20ms prepulses that were 72, 74, 78, or 86dB. RESULTS: Patients with adverse mood effects of COCs exhibited lower levels of PPI with 86dB prepulse compared to COC users with no adverse effects of COCs (p<0.05). There was no difference in PPI between the two groups of prior COC users. No significant difference was found between the groups regarding acoustic startle response. CONCLUSION: Relative to COC users with no reports of adverse mood symptoms, subjects suffering from COC-induced negative mood displayed deficits in PPI of acoustic startle. The fact that there was no difference in PPI between the two groups of prior COC users indicates that deficient PPI is related to adverse mood effects caused by COCs.     

Basolateral amygdala dopamine receptor antagonism modulates initial reactivity to but not habituation of the acoustic startle response

Although the basolateral amygdala (BLA) plays a role in the habituation to sensory stimuli, the receptor mechanisms mediating this process remain unclear. In the present study, we investigated the role of BLA dopamine (DA) in the habituation of the acoustic startle response (ASR) with intra-BLA infusions of DA receptor antagonists. Male Long Evans rats were subjected to startle pulses over two consecutive once-daily sessions. Prior to testing on Day 1, separate groups of animals received bilateral intra-BLA infusions of a D1 (SCH 23390: 0, 3.2, 6.4 microg per side) or a D2/D3 (raclopride: 0, 2.5, 5.0 microg per side) receptor antagonist. Animals were retested 24h later (Day 2) without prior drug infusion in order to assess possible treatment effects on within- and between-session habituation of the ASR. As expected, within- and between-session habituation was observed in vehicle-treated controls. Within-session habituation was also seen in SCH 23390- and raclopride-treated animals both on Day 1 as well as 24h later (Day 2). Evidence of between-session habituation was observed in SCH 23390-treated animals. However, compared to vehicle, intra-BLA SCH 23390 or raclopride attenuated the initial startle response on Day 1, but not Day 2. No evidence of between-session habituation was found in raclopride-treated animals, although this probably reflected the attenuated initial response to the startling stimulus on Day 1 rather than a reduced rate of habituation on Day 2. The present study suggests that while BLA DA is not involved in habituation of the ASR, it may mediate the perceived aversive nature of the initially startling stimuli.     

The Relationship Between Acoustic Startle Response Measures and Cognitive Functions in Japanese Patients with Schizophrenia

Recently, schizophrenia endophenotypes have been actively investigated to better understand the pathophysiology of schizophrenia. Past studies have shown that cognitive functions, including working memory and executive function, correlate with acoustic startle responses, such as prepulse inhibition (PPI), in patients with schizophrenia. The aim of this study was to investigate the relationship between cognitive functions and acoustic startle response in Japanese patients with schizophrenia. In 100 patients with schizophrenia, we evaluated cognitive function, using the Brief Assessment of Cognition in Schizophrenia, Japanese-language version (BACS-J), and acoustic startle responses, including acoustic startle reflex, habituation, and PPI (three different intensities: 82, 86, and 90?dB SPL, equivalent to signal-to-noise ratios of +12, +16, and +20?dB, respectively). Using multiple regression analysis, we examined the relationship between acoustic startle responses and BACS-J primary measures or composite score. Level of attention was associated with magnitude of habituation in schizophrenia (P?=?0.0009, β?=?-0.357). None of the other domains of cognitive function were significantly associated with any measure of acoustic startle response. This included attention regarding ASR (P?=?0.513), PPI (P?=?0.521-0.842), verbal memory (P?=?0.423-0.981), working memory (P?=?0.312-0.966), motor speed (P?=?0.323-0.955), verbal fluency (P?=?0.125-0.920), executive function (P?=?0.118-0.470), and the BACS-J composite score (P?=?0.230-0.912). In this first investigation of the relationship between cognitive functions and acoustic startle responses in Japanese patients with schizophrenia, attentional deficits correlated highly with the level of habituation. However, a replication study using other population samples is required to further investigate this relationship.     

An acoustic startle-based method of assessing frequency discrimination in mice

The acoustic startle response (ASR) is a reflexive contraction of skeletal muscles in response to a loud, abrupt acoustic stimulus. ASR magnitude is reduced if the startle stimulus is preceded by a weaker acoustic or non-acoustic stimulus, a phenomenon known as prepulse inhibition (PPI). PPI has been used to test various aspects of sensory discrimination in both animals and humans. Here we show that PPI of the ASR is an advantageous method of assessing frequency discrimination. We describe the apparatus and its performance testing frequency discrimination in young CD1 mice. Compared to classical conditioning paradigms, PPI of the ASR is less time consuming, produces robust results, and can be used without training even in young animals. This approach can be used to investigate the neuronal mechanisms underlying frequency discrimination, its maturation during development, and its relationship to tonotopic organization.     

Lower levels of prepulse inhibition of startle response in pregnant women compared to postpartum women

OBJECTIVE: During the postpartum period, estradiol and progesterone levels decline from very high levels during late pregnancy to low levels within 48h of parturition. This period is associated with dysphoric states such as the postpartum blues. Animal studies have suggested an enhanced acoustic startle response and deficient prepulse inhibition (PPI) of startle response following progesterone withdrawal and during the postpartum period. The aim of the current study was to compare acoustic startle response and PPI in healthy third trimester pregnant women and healthy postpartum women. METHODS: Twenty-eight healthy pregnant and 21 healthy postpartum women (examined between 48h and 1 week after delivery) were recruited for the study. In addition, to evaluate the time-course of postpartum changes 11 early postpartum women (examined within 48h following delivery) were included in the study. The eyeblink component of the acoustic startle reflex was assessed using electromyographic measurements of m. Orbicularis Oculi. Twenty pulse-alone trials (115dB 40ms broad-band white noise) and 40 prepulse-pulse trials were presented. The prepulse stimuli consisted of a 115dB 40ms noise burst preceded at a 100ms interval by 20ms prepulses that were 72, 74, 78 or 86dB. RESULTS: Pregnant women exhibited lower levels of PPI compared to late postpartum women, p<0.05. There was no difference between pregnant women and postpartum women examined within 48h of delivery. There was no difference in startle response or habituation to startle response between pregnant women and either of the two groups of postpartum women. CONCLUSION: Healthy women display lower levels of PPI during late pregnancy when estradiol and progesterone levels are high compared to the late postpartum period when ovarian steroid levels have declined.     

Failure of haloperidol to block the effects of phencyclidine and dizocilpine on prepulse inhibition of startle.

Prepulse inhibition of acoustic or tactile startle (PPI), a form of sensorimotor gating, occurs when a weak prestimulus precedes a startling stimulus and inhibits the startle response. Studies of PPI have revealed that schizophrenic patients exhibit a deficit in this form of sensorimotor gating. In rats, PPI is blocked by dopamine agonists such as apomorphine or quinpirole, effects that are antagonized by haloperidol. Phencyclidine (PCP) has been suggested as a possible model psychotogen and produces a deficit in PPI that is similar to what is observed in schizophrenic patients. Dizocilpine is an anticonvulsant drug that, like PCP, is a noncompetitive antagonist of N-methyl-D-aspartate (NMDA)-induced excitations in brain and also disrupts PPI. In the present study, PPI of acoustic and tactile startle was measured in male Sprague-Dawley rats after injections of 5.0 mg/kg PCP with or without pretreatment with 0.02 or 0.1 mg/kg haloperidol, or with 0.5 mg/kg dizocilpine with or without pretreatment with 0.1 mg/kg haloperidol. The 0.1 mg/kg dose of haloperidol blocks the effects of apomorphine or quinpirole on PPI in rats. Startle was elicited by noise bursts at 105 or 120 dB or by air-puffs (tactile) and was inhibited by 75 or 85 dB prepulse stimuli presented 100 msec before the startle stimuli. The different eliciting stimuli produced different levels of startle in both control and drug-treated animals. Both NMDA antagonists significantly reduced the amount of PPI induced by the 75 dB prestimulus, independently of the level of startle responses elicited by the startle stimuli. Haloperidol did not block the disruption of PPI induced by either PCP or dizocilpine. In addition, PCP was unable to block PPI when the 85 rather than the 75 dB prepulse was used to inhibit either acoustic or tactile startle. These results confirm that putative NMDA antagonists inhibit sensorimotor gating in rats and suggest that these effects are not mediated by the activation of central dopamine systems.     

Effects of buspirone and alprazolam treatment on the startle-potentiated startle response

The startle potentiated startle (SPS) paradigm has been reported to be an effective procedure for studying the conditioned enhancement of acoustic startle in the absence of electric shocks or extinction. This study examines the effects of two anxiolytic treatments, buspirone and alprazolam, on this SPS effect. Subjects were tested in the SPS paradigm 2 days a week (Monday and Thursday) for 10 weeks. Each startle test session consisted of 10 Noise Alone trials (115 dB acoustic noise burst presented for 40 ms) and 10 Light+Noise trials (115 dB acoustic stimuli presented during the latter 40 ms of a 3,540 ms period in which a 15-watt light was illuminated). Although there was no difference in startle amplitude on Noise Alone trials when compared to Light+Noise trials initially, by the end of the first test session and continuing throughout the duration of the experiment, startle amplitude on Light+Noise trials was significantly (approximately 50-75%) greater than on Noise Alone trials. After five control (i.e., no injection) SPS test sessions, once-weekly drug challenges were conducted over the course of 7 weeks. In these weekly drug challenges, subjects received acute treatment with various doses of the benzodiazepine anxiolytic alprazolam (0.25, 0.5, 1.0 mg/kg) or the novel anxiolytic buspirone (1.0, 2.0, 4.0 mg/kg); subjects also received vehicle treatment (0.5% methylcellulose) on one treatment day. All treatments were administered intraperitoneally (i.p.), 15 min before the start of startle testing. Consistent with previous reports, buspirone increased and alprazolam decreased startle amplitude on the Noise Alone trials; these effects were dose-related. Both agents reduced the magnitude of the SPS effect when it was expressed as the Light+Noise startle amplitude minus the Noise Alone startle amplitude. These findings are similar to the effects of these treatments in the traditional shock-based fear-potentiated startle paradigm.     

Reduced G(i) and G(o) protein function in the rat nucleus accumbens attenuates sensorimotor gating deficits

Prepulse inhibition of the acoustic startle response (PPI) is a cross-species measure of sensorimotor gating, which is severely disrupted in patients with schizophrenia. PPI deficits can be produced in experimental animals by administration of selective D(2)-like dopamine receptor agonists in the nucleus accumbens (NAc). G proteins coupled to these receptors reportedly are altered in the NAc of patients with schizophrenia. Therefore, we sought to determine whether experimental inactivation of intracellular G proteins in the NAc alters PPI. In adult male Sprague-Dawley rats, baseline PPI was determined by presenting acoustic pulse stimuli (120 dB) alone or preceded 100 ms earlier by prepulse stimuli (3, 6 or 12 dB above 70 dB ambient noise). PPI disruption was assessed in the presence of quinpirole (0.0, 0.05, 0.1, 0.5 mg/kg, sc), and pertussis toxin (PTX; 0.05 microg/side) was then infused into the NAc bilaterally. Ten days later, quinpirole-mediated disruption of PPI was significantly reduced; neither PTX alone, nor heat-inactivated PTX had any effect on quinpirole-induced PPI reductions. PPI was significantly higher after PTX infusion upon moderate quinpirole challenge, suggesting that D(2)-like receptors were less effective. PTX treatment significantly reduced basal and dopamine-stimulated [35S]GTPgammaS binding in the NAc core and shell, and reduced G(i)(alpha) protein immunoreactivity in the NAc. The results suggest that PPI disruption mediated by D(2)-like receptor activation in the NAc depends on coupling to G(i) and G(o) proteins, alteration of which could cause sensorimotor gating deficits in schizophrenia.     

Lipopolysaccharide does not affect acoustic startle reflex in mice

Bacterial endotoxin (lipopolysaccharide; LPS) evokes in rodents an adaptive sickness behavior. It also produces changes in stress hormones secretion and activity of brain serotonergic and noradrenergic systems that have been implicated in stress responses, fear, and anxiety. Acoustic startle reflex (ASR) is regarded as a protective behavioral response that is enhanced in threatening situations or following an aversive event, and it can be modulated by physiological and emotional state of an animal. Effects of intraperitoneal injections of LPS on ASR, prepulse inhibition (PPI), locomotor activity in open field, and blood plasma corticosterone concentration were studied in lines of mice that display high (HA line) or low (LA line) swim stress-induced analgesia and also differ in emotional behaviors, including the magnitude of ASR. In both lines LPS produced robust sickness behavior, as evidenced by a decrease in locomotion and body weight, and an increase in corticosterone concentration. However, in neither line LPS injections affected responses to acoustic stimuli as assessed by the ASR and PPI magnitudes. The findings suggest that in sickness behavior induced by LPS the protective responses to salient environmental stimuli are not impaired. The significance of this finding for the concept of sickness behavior is discussed.     

Lack of relationship between acoustic startle and cognitive variables in schizophrenia and control subjects

Measures of acoustic startle such as prepulse inhibition (PPI) and startle latency have been found to be impaired in schizophrenia, and are commonly thought to be related to cognitive deficits in this disease. However, findings about the relationship between startle variables and cognitive performance have been equivocal. In this study, we examined correlations between startle measures (baseline startle magnitude, latency, habituation and PPI) and cognitive performance (using the Benton Visual Retention Test, Conner's Continuous Performance Test, California Verbal Learning Test, Finger Tapping Test, and Wisconsin Card Sort Test) in 107 schizophrenia patients and 94 healthy controls. Overall, there was a lack of any significant relationship between these constructs in both populations when correcting for multiple comparisons. This suggests that alterations in startle measures seen in schizophrenia may not reflect elements of information processing that cause cognitive deficits in the disease.     

Phencyclidine (PCP)-induced deficits of prepulse inhibition in monkeys

Prepulse inhibition (PPI) of the acoustic startle reflex is a measure of sensorimotor gating which occurs in both rodents and humans. PPI is deficient in severe neuropsychiatric disorders such as schizophrenia. We investigated PPI in 10 adult monkeys (Cebus apella). Stimuli were 115 dB white noise startle pulses, either alone or preceded by 120 ms with a prepulse of either 8 or 16 dB above the 70 dB background noise. Experiments included a pretreatment baseline session and a session following treatment with either phencyclidine (PCP, 0.12 mg/kg, i.m.) or saline. Comparison of peak amplitudes indicated a significant intensity-dependent decrease in startle response that was similar to that observed in humans under similar experimental conditions. PCP treatment significantly disrupted PPI, but did not reduce responses to startle pulses alone. These results provide the first demonstration of PPI in monkeys. The ability of PCP to induce schizophrenia-like deficits in PPI suggests that PPI in nonhuman primates may provide an important animal model for the development of novel anti-schizophrenia medications.     

Sensory gating in rats depleted of dopamine as neonates: potential relevance to findings in schizophrenic patients.

Based on a recent hypothesis of reduced subcortical dopaminergic tone, evidence of early neurodevelopmental deviation, and acoustic startle abnormalities in schizophrenia, we examined acoustic startle in adult animals depleted of dopamine (DA) as neonates. Male rat pups received intracerebroventricular injections of either 6-hydroxydopamine (6-OHDA, 100 micrograms) or its vehicle on postnatal day 3. At 60 days of age, baseline startle and prepulse inhibition (PPI) of startle were assessed in a no injection condition, with all other animals receiving injections of saline or the DA agonist, apomorphine. Acoustic startle was elicited using 120 db white noise bursts alone or preceded by prepulses of 75, 80, and 85 db. Animals treated with 6-OHDA exhibited a 93% depletion of striatal DA compared to vehicle-treated controls. Whereas DA depleted animals did not differ from controls in the no injection condition, they showed greater baseline startle and reduced PPI compared to controls after saline injections. Depleted animals also showed exaggerated responses to apomorphine, with greater increases in baseline startle, loss of habituation, and decreased PPI compared to controls. Findings indicate that neonatal DA depletions lead to increased baseline startle and impaired sensory gating in adulthood after saline injections and dopamine agonists compared to controls. These findings may be relevant to a subgroup of psychotic patients that exhibit similar startle abnormalities as well as signs of hypodopaminergic function.     

Stability of the acoustic startle reflex, prepulse inhibition, and habituation in schizophrenia

Prepulse inhibition (PPI) of the acoustic startle reflex has been proposed as a neurophysiological measure of sensorimotor gating. There is high test-retest reliability of both startle magnitude and PPI in non-psychiatric subjects. The present study examined the stability of the acoustic startle reflex and its modulation in patients with schizophrenia. Startle measurements were performed in 19 chronic schizophrenic patients on stable medications and 24 healthy control subjects, three times at one-month intervals. PPI trials with various intervals between the prepulse and the startle stimulus (30, 60. 120, 240, and 2000 ms) were used. Intraclass correlation coefficients (ICC) were computed to assess stability. There was a good test-retest reliability of PPI in both schizophrenic patients (Mean ICC: 0.75) and control subjects (Mean ICC: 0.71). Acoustic startle magnitude was the most stable measure across sessions (Mean ICC schizophrenics: 0.89; Mean ICC controls: 0.89). In both groups, a good test-retest reliability was found in the startle latencies. Habituation and prepulse-induced shortening of latencies exhibited moderate stability. Schizophrenic patients exhibited significantly less PPI than control subjects in the 60 ms prepulse condition. This PPI deficit was evident in all three sessions. These results indicate that PPI is a stable neurobehavioral measure in chronic schizophrenic patients in the absence of changes in clinical state.     

Pharmacogenetics,pharmacogenomics and personalized psychiatry: Are we there yet?

Previous studies suggest an important role for serotonergic (5-HT) modulation of the acoustic startle reflex (ASR) and prepulse inhibition (PPI). Acute challenge of brain serotonin by means of tryptophan depletion test (TDT) represents an established human challenge tool for temporary reduction of tryptophan (-TRP) levels and central nervous serotonin. Under these experimental conditions, PPI was found attenuated in males, but greater biochemical effects of TDT in the central nervous system of females are known. Therefore, in order to explore influence of 5-HT on various standard startle parameters in females, 16 young healthy females participated in a double-blind, cross-over TDT study. Acoustic stimuli were presented in 15 pulse-alone trials (100 dB, 40 ms) randomly followed by 25 pulse-alone or prepulse (70 dB, 30 ms; 120 ms interval) trials alongside electromyographic eyeblink recordings and mood state assessments. During 81% depletion of free plasma TRP, mean ASR magnitudes were significantly reduced compared to control (+TRP) condition while there were no differences in habituation or PPI nor did startle parameters correlate with mood states. Changes of plasma TRP and mood states correlated in tendency negatively in (-TRP) for depression and positively in (+TRP) for fatigue. In conclusion, this first study of startle parameters after TDT in a homogenous female population demonstrates that depletion of brain 5-HT in women only influences ASR.     

Maternal exposure to bacterial endotoxin during pregnancy enhances amphetamine-induced locomotion and startle responses in adult rat offspring

An increased incidence of schizophrenia has been associated with several perinatal insults, most notably maternal infection during pregnancy and perinatal hypoxia. This study used a rat model to directly test if maternal exposure to bacterial endotoxin (lipopolysaccharide, LPS) during pregnancy alters behaviors relevant to schizophrenia, in offspring at adulthood. The study also tested if postnatal anoxia interacted with gestational LPS exposure to affect behavior. At adulthood, offspring from dams administered LPS on days 18 and 19 of pregnancy showed significantly increased amphetamine-induced locomotion, compared to offspring from saline-treated dams. A period of anoxia on postnatal day 7 had no effect on amphetamine-induced locomotion and there was no interaction between effects of gestational LPS and postnatal anoxia on this behavior. Offspring from LPS-treated dams also showed enhanced acoustic startle responses as adults, compared to offspring from saline-treated dams. In offspring tested for pre-pulse inhibition (PPI) of acoustic startle and for apomorphine modulation of PPI, no effects of either gestational LPS or of postnatal anoxia and no interactions between LPS and anoxia were observed. It is concluded that maternal LPS exposure during pregnancy in the rat may be a useful model to study mechanisms responsible for effects of maternal infection on behaviors relevant to schizophrenia, in offspring.     

Pre-pulse inhibition of the acoustic startle eye-blink in the Göttingen minipig

Pre-pulse inhibition (PPI) of the startle response is a measure of sensorimotor gating which has been frequently shown to be deficient in schizophrenic patients. In humans it is typically measured as the attenuation of the startle eye-blink reflex EMG when a startle eliciting noise is preceded by a weak white noise pre-pulse (PP), the interval between the PP and the startle noise stimulus (SNS) determining the degree of inhibition. Aiming at developing a new animal model of schizophrenia, we have investigated the acoustic startle eye-blink and PPI in 10 G?ttingen minipigs. The stimuli and the block design of the stimulation were similar to paradigms used in human research. Initially the startle habituation across trials and blocks, secondarily the PPI at PP to SNS intervals of 30, 60, 120, 220, 520, 1020 and 2020 ms was investigated. One pig out of ten did not have a startle response, and three other pigs did not have a startle response of a sufficient magnitude to demonstrate the PPI seen in the other six pigs at the expected PP intervals of 60, 120, and 220 ms. Maximal inhibition was seen at the 220 ms interval (mean PPI 58.6%, range -18.4 to 94.6%, N = 9). Most of the results in the pigs are in accordance with findings in studies of the human startle eye-blink EMG and this initial study promotes further studies and the use of the PPI measure in the validation of minipig models of psychiatric disorders.     

Activation of a distinct arousal state immediately after spontaneous awakening from sleep

In contrast to the many neural studies into the mechanisms of sleep onset and maintenance, few studies have focused specifically on awakening from sleep. However, the abrupt electrographic changes and large brief cardio-respiratory activation at awakening suggest that a distinct, transiently aroused, awake state may exist compared to later wakefulness. To test this hypothesis we utilized the acoustic startle reflex, a standard un-conditioned reflex elicited by a sudden loud noise. This reflex is modulated under specific conditions, one being a diminution of startle when a quieter pre-stimulus is presented immediately before the loud stimulus. This pre-pulse inhibition (PPI) is used as a measure of sensorimotor gating, with smaller PPI indicating less filtering of sensory inputs and increased responsiveness to external stimuli. Eight rats with electrodes for recording sleep–wake state were studied. An accelerometer measured startle responses. The startle reflex was elicited by 115 dB, 40 ms tones. PPI was produced by 74 dB, 20 ms tones preceding the 115 dB tone by 100 ms. Responses within 100 ms were measured. Stimuli were applied either 3–10 s after spontaneous awakenings, or in established wakefulness (>30 s). Responses to the startle stimuli alone were similar in the different awake states (P=0.821). However, PPI was smaller at awakening from non-REM sleep compared to established wakefulness (45.4±7.5% vs. 74.3±6.1%, P=0.0002). PPI after awakening from REM sleep (52.8±17.9%) was not significantly different than established wakefulness (P=0.297). Reduced PPI of the startle reflex at awakening from non-REM sleep supports the hypothesis that wakefulness immediately after spontaneous sleep episodes is neurophysiologically distinct from later wakefulness and associated with reduced gating of motor responses to sensory inputs. Spontaneous activation of this distinct, transiently aroused, state upon awakening may serve a protective function, preparing an animal to respond immediately to potentially threatening stimuli.     

Effects of experimental acute tryptophan depletion on acoustic startle response in females

Previous studies suggest an important role for serotonergic (5-HT) modulation of the acoustic startle reflex (ASR) and prepulse inhibition (PPI). Acute challenge of brain serotonin by means of tryptophan depletion test (TDT) represents an established human challenge tool for temporary reduction of tryptophan (−TRP) levels and central nervous serotonin. Under these experimental conditions, PPI was found attenuated in males, but greater biochemical effects of TDT in the central nervous system of females are known. Therefore, in order to explore influence of 5-HT on various standard startle parameters in females, 16 young healthy females participated in a double-blind, cross-over TDT study. Acoustic stimuli were presented in 15 pulse-alone trials (100 dB, 40 ms) randomly followed by 25 pulse-alone or prepulse (70 dB, 30 ms; 120 ms interval) trials alongside electromyographic eyeblink recordings and mood state assessments. During 81% depletion of free plasma TRP, mean ASR magnitudes were significantly reduced compared to control (+TRP) condition while there were no differences in habituation or PPI nor did startle parameters correlate with mood states. Changes of plasma TRP and mood states correlated in tendency negatively in (−TRP) for depression and positively in (+TRP) for fatigue. In conclusion, this first study of startle parameters after TDT in a homogenous female population demonstrates that depletion of brain 5-HT in women only influences ASR.     

Neural circuits containing pallidotegmental GABAergic neurons are involved in the prepulse inhibition of the startle reflex in mice.

BACKGROUND: Prepulse inhibition (PPI) of the startle response is a measure of the inhibitory function and time-linked information processing by which a weak sensory stimulus (the prepulse) inhibits the startle response caused by a sudden intense stimulus. We attempted to clarify the neuronal circuits underlying the control of PPI of the startle reflex in mice. METHODS: c-Fos immunohistochemistry was used to detect neurons activated by startle pulse and/or prepulse trials. Behavioural pharmacology and tracing studies were also conducted. RESULTS: The lateral globus pallidus (LGP) was activated by prepulses. Activation of the caudal pontine reticular nucleus (PnC) evoked by the startle pulses was inhibited under PPI conditions. Double-immunostaining revealed that c-Fos-positive cells in the LGP following prepulse trials were GABAergic neurons. Bilateral microinjections of lidocaine into the LGP resulted in an impairment of PPI. Fluoro-gold infusion into the PnC and the pedunculopontine tegmental nucleus (PPTg) retrogradely labeled neurons in the PPTg and LGP, respectively. Microinjections of phaclofen into the PPTg significantly impaired PPI. CONCLUSIONS: These results suggest that GABAergic neurons in the LGP which project to the PPTg play a crucial role through the activation of GABAB receptors in the regulation of PPI of the startle reflex in mice.