マウスにおける反復、強迫様行動の試験などのガラス玉覆い隠しとNestletシュレッダー
Summary
Disease, head injury, genetic modifications, and treatment of mice with drugs can have profound effects on behavior. Utilizing well-characterized and validated approaches such as marble burying and nestlet shredding, compulsive-like behaviors can be documented accurately in mice as models of human obsessive-compulsive disorder and autism spectrum disorder.
Abstract
Obsessive-compulsive disorder (OCD) and autism spectrum disorders (ASD) are serious and debilitating psychiatric conditions and each constitutes a significant public health concern, particularly in children. Both of these conditions are highlighted by the repeated expression of meaningless behaviors. Individuals with OCD often show checking, frequent hand washing, and counting. Children with ASDs also engage in repetitive tapping, arm or hand flapping, and rocking. These behaviors can vary widely in intensity and frequency of expression. More intense forms of repetitive behaviors can even result in injury (e.g. excessive grooming, hand washing, and self-stimulation). These behaviors are therefore very disruptive and make normal social discourse difficult. Treatment options for repetitive behaviors in OCD and ASDs are somewhat limited and there is great interest in developing more effective therapies for each condition. Numerous animal models for evaluating compulsive-like behaviors have been developed over the past three decades. Perhaps the animal models with the greatest validity and ease of use are the marble burying test and the nestlet shredding test. Both tests take advantage of the fact that the target behaviors occur spontaneously in mice. In the marble burying test, 20 marbles are arrayed on the surface of clean bedding. The number of marbles buried in a 30 min session is scored by investigators blind to the treatment or status of the subjects. In the nestlet shredding test, a nestlet comprised of pulped cotton fiber is preweighed and placed on top of cage bedding and the amount of the nestlet remaining intact after a 30 min test session is determined. Presently, we describe protocols for and show movie documentation of marble burying and nestlet shredding. Both tests are easily and accurately scored and each is sensitive to small changes in the expression of compulsive-like behaviors that result from genetic manipulations, disease, or head injury.
Introduction
Mouse models of human behaviors, and particularly psychiatric disorders, constitute important and essential experimental approaches to the study of disease mechanisms and to the development of new therapies. Many psychiatric illnesses remain extremely difficult to model in animals (e.g. schizophrenia). However, animals exhibit a large number of natural and distinctive behaviors that can readily be linked to similar behaviors in humans. Movement or locomotor activity is one example of a behavior in animals that has a counterpart in humans. Rodents often engage in a variety of repetitive behaviors and examples include grooming or digging. One psychiatric condition that involves the exhibition of recurrent and unwanted behaviors in humans is obsessive-compulsive disorder (OCD). Behaviors that are highly characteristic of OCD include checking, counting, and excessive washing or grooming. OCD is a highly prevalent (affects 1-3% of the population) and debilitating psychiatric disorder1. A large number of pharmacological and behavioral approaches have been used to treat OCD. Many of these fall short of providing long-term relief and relapse is common at the end of a treatment regimen2,3. Another psychiatric condition that involves the expression repetitive behaviors is autism spectrum disorder (ASD). ASDs are characterized by deficits in communication and social interaction and repetitive, stereotyped behaviors to include spinning, rocking, finger flicking or flapping, and complex body movements. The Centers for Disease Control and Prevention has estimated that about 1 in 88 children are diagnosed with ASDs. Treatment options for this disorder are extremely limited in number and efficacy4,5. The intensity and frequency of occurrence of repetitive behaviors in OCD and ASD can become great enough to displace most other normal behaviors and social interactions in patients with these conditions. In light of the prevalence and debilitating nature of psychiatric conditions characterized by repetitive behaviors, and considering the poor understanding of their causes and limited treatment options, the use of animal models to study these behaviors takes on added urgency.
A large number of animal models of repetitive behaviors as seen in OCD and ASDs have been developed over the past 30 years and numerous excellent reviews describing these models have been published6-14. In general, these established models can be classified as genetic, pharmacological, neurodevelopmental and behavioral and most show good face, construct and predictive validity6,7. We have used two behavioral models- marble burying and nestlet shredding- to assess repetitive behaviors in mice genetically depleted of serotonin15,16. These methods have numerous advantages not the least of which are their ease of use, the accuracy with which the behaviors can be scored, the spontaneous exhibition of these behaviors in rodents, and their use in high-throughput screening of genetically modified mice for abnormal behavioral phenotypes. Furthermore, each test is carried out in standard and familiar rodent housing cages containing the same bedding used in subjects' home cages, minimizing the need for habituation of mice to novel testing chambers. Food and/or water restriction are not required to "motivate" mice to perform. The marble burying test takes advantage of the proclivity of mice to dig in natural settings (e.g. burrows, escape tunnels) and in standard cage bedding, and the nestlet shred test capitalizes on the fact that mice are nesting animals by nature that build nests for protection of themselves and their offspring against environmental conditions (e.g. sound, light, temperature). Using nonspecialized and commonly available rodent housing materials, the marble burying and nestlet shredding tasks are simple and powerful behavioral assays of repetitive, compulsive-like behaviors in mice.
Protocol
Representative Results
Discussion
The marble burying and nestlet shredding tests are good examples of behavioral methods for studying repetitive and compulsive-like behaviors in mice. Both tests show excellent face, construct and predictive validity for the human disorders they model6-11. These repetitive behaviors are natural and spontaneous in rodents and their frequency and intensity can vary after genetic modifications, as shown presently, or after head injury and treatment of subjects with drugs. The value of these two tests derives from …
Divulgazioni
The authors have nothing to disclose.
Acknowledgements
This work was supported by grants from the Department of Veterans Affairs and the National Institutes of Health.
Materials
| Glass toy marbles | local toy store | N/A | assorted styles, colors, clear, and opaque |
| Nestlets | Ancare | NES3600 | |
| N10 series mouse cage | Ancare | N10HT | standard rodent cage with wire top |
| R20 series rat cage | Ancare | R20 | standard rodent cage with wire top |
| Bed-o'Cobs | The Andersons | 8B | standard rodent bulk bedding, 1/8 in |
Riferimenti
- Chamberlain, S. R., Blackwell, A. D., Fineberg, N. A., Robbins, T. W., Sahakian, B. J. The neuropsychology of obsessive compulsive disorder: the importance of failures in cognitive and behavioural inhibition as candidate endophenotypic markers. Neurosci. Biobehav. Rev. 29, 399-419 (2005).
- McGuire, J. F., Lewin, A. B., Horng, B., Murphy, T. K., Storch, E. A. The nature, assessment, and treatment of obsessive-compulsive disorder. Postgrad. Med. 124, 152-165 (2012).
- Fineberg, N. A., Brown, A., Reghunandanan, S., Pampaloni, I. Evidence-based pharmacotherapy of obsessive-compulsive disorder. Int. J. Neuropsychopharmacol. 15, 1173-1191 (2012).
- Dove, D., et al. Medications for adolescents and young adults with autism spectrum disorders: a systematic review. Pediatrics. 130, 717-726 (2012).
- Doyle, C. A., McDougle, C. J. Pharmacotherapy to control behavioral symptoms in children with autism. Expert Opin. Pharmacother. 13, 1615-1629 (2012).
- Albelda, N., Joel, D. Current animal models of obsessive compulsive disorder: an update. Neuroscienze. 211, 83-106 (2012).
- Albelda, N., Joel, D. Animal models of obsessive-compulsive disorder: Exploring pharmacology and neural substrates. Neurosci. Biobehav. Rev. 36, 47-63 (2012).
- Wang, L., Simpson, H. B., Dulawa, S. C. Assessing the validity of current mouse genetic models of obsessive-compulsive disorder. Behav. Pharmacol. 20, 119-133 (2009).
- Joel, D. Current animal models of obsessive compulsive disorder: a critical review. Prog. Neuropsychopharmacol. Biol. Psychiatry. 30, 374-388 (2006).
- Witkin, J. M. Animal models of obsessive-compulsive disorder. Curr. Protoc. Neurosci. 30, 1-9 (2008).
- Deacon, R. M. Digging and marble burying in mice: simple methods for in vivo identification of biological impacts. Nat. Protoc. 1, 122-124 (2006).
- Moy, S. S., Nadler, J. J., Magnuson, T. R., Crawley, J. N. Mouse models of autism spectrum disorders: the challenge for behavioral genetics. Am. J. Med. Genet. C Semin. Med. Genet. 142, 40-51 (2006).
- Crawley, J. N. Mouse behavioral assays relevant to the symptoms of autism. Brain Pathol. 17, 448-459 (2007).
- Silverman, J. L., Yang, M., Lord, C., Crawley, J. N. Behavioural phenotyping assays for mouse models of autism. Nat. Rev. Neurosci. 11, 490-502 (2010).
- Angoa-Perez, M., et al. Genetic depletion of brain 5HT reveals a common molecular pathway mediating compulsivity and impulsivity. J. Neurochem. 121, 974-984 (2012).
- Kane, M. J., et al. Mice genetically depleted of brain serotonin display social impairments, communication deficits and repetitive behaviors: possible relevance to autism. PLoS One. 7, (2012).
- Deacon, R. M. Assessing nest building in mice. Nat. Protoc. 1, 1117-1119 (2006).
- Thomas, D. M., Angoa Perez, ., Francescutti-Verbeem, D. M., Shah, M. M., Kuhn, D. M. The role of endogenous serotonin in methamphetamine-induced neurotoxicity to dopamine nerve endings of the striatum. J. Neurochem. 115, 595-605 (2010).
- Gyertyan, I. Analysis of the marble burying response: marbles serve to measure digging rather than evoke burying. Behav. Pharmacol. 6, 24-31 (1995).
- Thomas, A., et al. Marble burying reflects a repetitive and perseverative behavior more than novelty-induced anxiety. Psychopharmacology. 204, 361-373 (2009).
- Hayashi, E., Kuratani, K., Kinoshita, M., Hara, H. Pharmacologically distinctive behaviors other than burying marbles during the marble burying test in mice. Pharmacology. 86, 293-296 (2010).
