A lack of functional <scp>NK1</scp> receptors explains most, but not all, abnormal behaviours of <scp>NK1R</scp>‐/‐ mice<sup>1</sup>

Porter, Alfred W.; Pillidge, Katharine; Tsai, Yuan-Chen; Dudley, Julia A.; Hunt, Stephen P.; Peirson, Stuart N.; Brown, L. M.; Stanford, S Clare

doi:10.1111/gbb.12195

Cited by 24 publications

(29 citation statements)

References 51 publications

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“…The only behaviour to show a marked genotype difference in NI-2 was perseveration, an abnormality that is also prominent in both NI-1 of this test (Porter et al, 2016) and the 5CSRTT (Dudley et al, 2013; Weir et al, 2014; Yan et al, 2011; Porter et al, 2015a; but see Porter et al, 2015b). Evidently, a deficit in functional NK1R can exacerbate this behaviour.…”

Section: Discussionmentioning

confidence: 81%

“…This proposition is based on our evidence that male NK1R-/- mice express locomotor hyperactivity compared with their wild types (Fisher et al, 2007; Herpfer et al, 2005; Porter et al, 2015a, 2015b), which is diminished by treatment with d -amphetamine or methylphenidate (Yan et al, 2009). These mutant mice also display impaired cognitive performance and response control in the 5-Choice Serial Reaction Time Task (5CSRTT).…”

Section: Introductionmentioning

confidence: 99%

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Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

et al. 2016

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The underlying cause(s) of abnormalities expressed by patients with attention deficit hyperactivity disorder (ADHD) have yet to be delineated. One factor that has been associated with increased vulnerability to ADHD is polymorphism(s) of TACR1, which is the human equivalent of the rodent NK1 (substance P-preferring) receptor gene (Nk1r). We have reported previously that genetically altered mice, lacking functional NK1R (NK1R–/–), express locomotor hyperactivity, which was blunted by the first-line treatment for ADHD, methylphenidate. Here, we compared the effects of this psychostimulant (3, 10 and 30 mg/kg, intraperitoneally) on the behaviour of NK1R-/- mice and their wild types in the 5-Choice Continuous Performance Test, which emulates procedures used to study attention and response control in ADHD patients. Methylphenidate increased total trials (a measure of ‘productivity’) completed by wild types, but not by NK1R-/- mice. Conversely, this drug reduced perseveration by NK1R-/- mice, but not by wild types. Other drug-induced changes in key behaviours were not genotype dependent, especially at the highest dose: for example, % omissions (an index of inattentiveness) was increased, whereas % false alarms and % premature responses (measures of impulsivity) declined in both genotypes, indicating reduced overall response. These findings are discussed in the context of the efficacy of methylphenidate in the treatment of ADHD. Moreover, they lead to several testable proposals. First, methylphenidate does not improve attention in a subgroup of ADHD patients with a functional deficit of TACR1. Second, these patients do not express excessive false alarms when compared with other groups of subjects, but they do express excessive perseveration, which would be ameliorated by methylphenidate.

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Section: Discussionmentioning

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

et al. 2016

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“…Nevertheless, it would be interesting to carry out a head-to-head comparison of the effect of diet on the performance of the two genotypes in the 5-CRSTT to test the possibility that a high-fat diet aggravates ADHD, as has been suggested for humans (Howard et al 2011), for which there is some preclinical supporting evidence (Marwitz et al, 2015). A further interesting caveat is that circadian rhythms are disrupted in these mice (Porter et al, 2015b) and that disruption of circadian rhythms can increase vulnerability to both obesity and ADHD (Vogel et al, 2015). …”

Section: Discussionmentioning

confidence: 99%

“…We studied inbred homozygous mice because these mice express all the diagnostic abnormalities seen in ADHD (locomotor hyperactivity, impulsive behaviour, inattentiveness and perseveration). Hyperactivity, inattentiveness and perseveration are also evident in the homozygous (F2) offspring of heterozygote (F1) parents, but their impulsive behaviour arises from an interaction between a lack of functional NK1R and an, as yet unidentified, factor in the breeding environment (Porter et al, 2015b). …”

Section: Methodsmentioning

confidence: 99%

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The NK1R-/- mouse phenotype suggests that small body size, with a sex- and diet-dependent excess in body mass and fat, are physical biomarkers for a human endophenotype with vulnerability to attention deficit hyperactivity disorder

2016

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The abnormal behaviour of NK1R-/- mice (locomotor hyperactivity, inattentiveness and impulsivity in the 5-Choice Serial Reaction-Time Test) is arguably analogous to that of patients with attention deficit hyperactivity disorder (ADHD). Evidence suggests that small body size and increased body weight are risk factors for ADHD. Here, we compared the body size, body mass and body composition of male and female NK1R-/- mice and their wildtypes that had been fed either standard laboratory chow or a high-fat (45%: ‘Western’) diet. Male NK1R-/- mice from both cohorts were approximately 7% shorter than wildtypes. A similar trend was evident in females. Male NK1R-/- mice fed the normal diet weighed less than wildtypes but the ‘body mass index’ (‘mBMI’: weight (mg)/length (cm)2) of female NK1R-/- mice was higher than wildtypes. When given the high-fat diet, the mBMI of both male and female NK1R-/- mice was higher than wildtypes. There were no consistent genotype or sex differences in protein, ash or water content of mice from the two cohorts. However, the fat content of male NK1R-/- mice on the Western diet was considerably (35%) higher than wildtypes and resembled that of females from both genotypes. We conclude that a lack of functional NK1R is associated with small body size but increases vulnerability to an increase in mBMI and fat content, especially in males. This phenotype could also be evident in ADHD patients with polymorphism(s) of the TACR1 gene (the human equivalent of Nk1r).

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The design of animal experiments

Bate,

Stanford

2024

The UFAW Handbook on the Care and Management of Laboratory and Other Research Animals

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A lack of functional NK1 receptors explains most, but not all, abnormal behaviours of NK1R‐/‐ mice¹

Cited by 24 publications

References 51 publications

Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

The NK1R-/- mouse phenotype suggests that small body size, with a sex- and diet-dependent excess in body mass and fat, are physical biomarkers for a human endophenotype with vulnerability to attention deficit hyperactivity disorder

The design of animal experiments

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A lack of functional NK1 receptors explains most, but not all, abnormal behaviours of NK1R‐/‐ mice1

Cited by 24 publications

References 51 publications

Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

Perseveration by NK1R-/- (‘knockout’) mice is blunted by doses of methylphenidate that affect neither other aspects of their cognitive performance nor the behaviour of wild-type mice in the 5-Choice Continuous Performance Test

The NK1R-/- mouse phenotype suggests that small body size, with a sex- and diet-dependent excess in body mass and fat, are physical biomarkers for a human endophenotype with vulnerability to attention deficit hyperactivity disorder

The design of animal experiments

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A lack of functional NK1 receptors explains most, but not all, abnormal behaviours of NK1R‐/‐ mice¹