Abstract
Being able to discriminate between what originates from ourselves and what originates from others is critical for efficient interactions with our social environment. However, it remains an open question whether self-other distinction is a domain-general mechanism that is involved in various social-cognitive functions or whether specific ‘self-other distinction mechanisms’ exist for each of these functions. On the neural level, there is evidence that self-other distinction is related to a specific brain region at the border of the superior temporal and inferior parietal cortex, the temporoparietal junction (TPJ). Demonstrating that the TPJ plays a role in social processes that require self-other distinction would support the idea of a domain-general mechanism of self-other distinction. In the present paper, we review evidence coming from clinical observations, neuroimaging experiments and a meta-analysis indicating the involvement of the TPJ in various cognitive operations requiring self-other distinction. At the perceptual level, we discuss the human ability to identify one’s own body and to distinguish it from others. At the action level, we review research on the human ability to experience agency and the control of imitative response tendencies. Finally, at the mental-state level, we discuss the ability to attribute mental states to others. Based on this integrative review, we suggest that the TPJ, and in particular its dorsal part, supports a domain general ability to enhance task-relevant representations when self-related and other-related representations are in conflict. Finally, this conception allows us to propose a unifying architecture for the emergence of numerous socio-cognitive abilities.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abraham A, Schubotz RI, von Cramon DY (2008) Thinking about the future versus the past in personal and non-personal contexts. Brain Res 1233:106–119
Aichhorn M, Perner J, Kronbichler M, Staffen W, Ladurner G (2006) Do visual perspective tasks need theory of mind? Neuroimage 30(3):1059–1068
Apperly IA, Butterfill SA (2009) Do humans have two systems to track beliefs and belief-like states? Psychol Rev 116(4):953–970
Arora A, Schurz M, Perner J (2017) Systematic comparison of brain imaging meta-analyses of ToM with vPT. BioMed Research International
Bardi L, Brass M (2016) The control of shared representations and social cognition. Shared representations. Cambridge University Press, Cambridge, pp 151–170
Bardi L, Gheza D, Brass M (2017) TPJ-M1 interaction in the control of shared representations: new insights from tDCS and TMS combined. NeuroImage 146:734–740
Berlucchi G, Aglioti S (1997) The body in the brain: neural bases of corporeal awareness. Trends Neurosci 20(12):560–564
Blakemore SJ, Smith J, Steel R, Johnstone EC, Frith CD (2000) The perception of self-produced sensory stimuli in patients with auditory hallucinations and passivity experiences: evidence for a breakdown in self-monitoring. Psychol Med 30(5):1131–1139
Blanke O, Arzy S (2005) The out-of-body experience: disturbed self-processing at the temporo-parietal junction. Neuroscientist 11(1):16–24
Blanke O, Ortigue S, Landis T, Seeck M (2002) Neuropsychology: stimulating illusory own-body perceptions. Nature 419(6904):269
Boccadoro S, Cracco E, Hudson A, Bardi L, Nijhof A, Wiersema JR, Brass M, Mueller S (2019) Defining the neural correlates of spontaneous theory of mind (ToM): an fMRI mega-analytic investigation. bioRxiv, 560953
Botvinick M, Cohen J (1998) Rubber hands ‘feel’touch that eyes see. Nature 391(6669):756
Brass M, Heyes C (2005) Imitation: is cognitive neuroscience solving the correspondence problem? Trends Cognit Sci 9(10):489–495
Brass M, Bekkering H, Wohlschläger A, Prinz W (2000) Compatibility between observed and executed finger movements: comparing symbolic, spatial, and imitative cues. Brain Cognit 44:124–143
Brass M, Zysset S, von Cramon DY (2001) The inhibition of imitative response tendencies. Neuroimage 14(6):1416–1423
Brass M, Derrfuss J, von Cramon DY (2005) The inhibition of imitative and overlearned responses: a functional double dissociation. Neuropsychologia 43(1):89–98
Brass M, Ruby P, Spengler S (2009) Inhibition of imitative behaviour and social cognition. Philos Trans R Soc B 364(1528):2359–2367
Braun N, Debener S, Spychala N, Bongartz E, Sorös P, Müller HHO, Philipsen A (2018) The senses of agency and ownership: a review. Front Psychol 9:535
Brozzoli C, Gentile G, Ehrsson HH (2012) That’s near my hand! Parietal and premotor coding of hand-centered space contributes to localization and self-attribution of the hand. J Neurosci 32(42):14573–14582
Brugger P, Lenggenhager B (2014) The bodily self and its disorders: neurological, psychological and social aspects. Curr Opin Neurol 27(6):644–652
Buehner MJ (2012) Understanding the past, predicting the future: causation, not intentional action, is the root of temporal binding. Psychol Sci 23(12):1490–1497
Bukowski H, Lamm C (2017) Temporoparietal junction. In: Zeigler-Hill V, Shackelford TK (eds) Encyclopedia of personality and individual differences. Springer, New York, pp 1–5
Bzdok D, Langner R, Schilbach L, Jakobs O, Roski C, Caspers S, Laird AR, Fox PT, Zilles K, Eickhoff SB (2013) Characterization of the temporo-parietal junction by combining data-driven parcellation, complementary connectivity analyses, and functional decoding. NeuroImage 81:381–392
Cabeza R, Ciaramelli E, Moscovitch M (2012) Cognitive contributions of the ventral parietal cortex: an integrative theoretical account. Trends Cognit Sci 16(6):338–352
Carruthers P (2015) Mindreading in adults: evaluating two-systems views. Synthese 194:1–16
Carter RM, Huettel SA (2013) A nexus model of the temporal–parietal junction. Trends Cognit Sci 17(7):328–336
Chambon V, Wenke D, Fleming SM, Prinz W, Haggard P (2012) An online neural substrate for sense of agency. Cereb Cortex 23(5):1031–1037
Corbetta M, Shulman GL (2002) Control of goal-directed and stimulus-driven attention in the brain. Nat Rev Neurosci 3(3):201
Corbetta M, Patel G, Shulman GL (2008) The reorienting system of the human brain: from environment to theory of mind. Neuron 58(3):306–324
Daprati E, Franck N, Georgieff N, Proust J, Pacherie E, Dalery J, Jeannerod M (1997) Looking for the agent: an investigation into consciousness of action and self-consciousness in schizophrenic patients. Cognition 65(1):71–86
Darda KM, Ramsey R (2019) The inhibition of automatic imitation: a meta-analysis and synthesis of fMRI studies. NeuroImage 197:320–329
David N, Newen A, Vogeley K (2008) The “sense of agency” and its underlying cognitive and neural mechanisms. Conscious Cognit 17(2):523–534
Decety J, Lamm C (2007) The role of the right temporoparietal junction in social interaction: how low-level computational processes contribute to meta-cognition. Neuroscientist 13(6):580–593
Devinsky O (2000) Right cerebral hemisphere dominance for a sense of corporeal and emotional self. Epilepsy Behav 1:60–73
Dewey JA, Knoblich G (2014) Do implicit and explicit measures of the sense of agency measure the same thing? PLoS ONE 9(10):e110118
Ehrsson HH, Spence C, Passingham RE (2004) That’s my hand! Activity in premotor cortex reflects feeling of ownership of a limb. Science 305(5685):875–877
Ehrsson HH, Wiech K, Weiskopf N, Dolan RJ, Passingham RE (2007) Threatening a rubber hand that you feel is yours elicits a cortical anxiety response. Proc Natl Acad Sci 104(23):9828–9833
Farrer C, Frith CD (2002) Experiencing oneself vs another person as being the cause of an action: the neural correlates of the experience of agency. Neuroimage 15(3):596–603
Farrer C, Franck N, Georgieff N, Frith CD, Decety J, Jeannerod M (2003) Modulating the experience of agency: a positron emission tomography study. Neuroimage 18(2):324–333
Gallagher S (2000) Philosophical conceptions of the self: implications for cognitive science. Trends Cognit Sci 4(1):14–21
Gallagher HL, Happé F, Brunswick N, Fletcher PC, Frith U, Frith CD (2000) Reading the mind in cartoons and stories: an fMRI study of ‘theory of mind’ in verbal and nonverbal tasks. Neuropsychologia 38(1):11–21
Gallotti M, Frith CD (2013) Social cognition in the we-mode. Trends Cognit Sci 17(4):160–165
Gandola M, Invernizzi P, Sedda A, Ferrè ER, Sterzi R, Sberna M, Paulesu E, Bottini G (2012) An anatomical account of somatoparaphrenia. Cortex 48(9):1165–1178
Gentile G, Guterstam A, Brozzoli C, Ehrsson HH (2013) Disintegration of multisensory signals from the real hand reduces default limb self-attribution: an fMRI study. J Neurosci 33(33):13350–13366
Gillihan SJ, Farah MJ (2005) Is self special? A critical review of evidence from experimental psychology and cognitive neuroscience. Psychol Bull 131(1):76
Haggard P (2017) Sense of agency in the human brain. Nat Rev Neurosci 18(4):196
Happé F, Cook JL, Bird G (2017) The structure of social cognition: in (ter) dependence of sociocognitive processes. Annu Rev Psychol 68:243–267
Hecht EE, Patterson R, Barbey AK (2012) What can other animals tell us about human social cognition? An evolutionary perspective on reflexive and reflective processing. Front Hum Neurosci 6:224
Heyes C (2014) Submentalizing: i’ m not really reading your mind. Psychol Sci 9:121–143
Heyes C (2018) Précis of cognitive gadgets: The cultural evolution of thinking. Behav Brain Sci 42:1–57
Hogeveen J, Obhi SS, Banissy MJ, Santiesteban I, Press C, Catmur C, Bird G (2014) Task-dependent and distinct roles of the temporoparietal junction and inferior frontal cortex in the control of imitation. Soc Cognit Affect Neurosci 10(7):1003–1009
Jeannerod M (2003) The mechanism of self-recognition in humans. Behav Brain Res 142(1–2):1–15
Just MA, Carpenter PA, Keller TA, Eddy WF, Thulborn KR (1996) Brain activation modulated by sentence comprehension. Science 274(5284):114–116
Keenan JP, Freund S, Hamilton RH, Ganis G, Pascual-Leone A (2000) Hand response differences in a self-face identification task. Neuropsychologia 38:1047–1053
Krall SC, Rottschy C, Oberwelland E, Bzdok D, Fox PT, Eickhoff SB, Fink GR, Konrad K (2015) The role of the right temporoparietal junction in attention and social interaction as revealed by ALE meta-analysis. Brain Struct Funct 220(2):587–604
Kühn S, Brass M, Haggard P (2013) Feeling in control: neural correlates of experience of agency. Cortex 49(7):1935–1942
Lamm C, Bukowski H, Silani G (2016) From shared to distinct self–other representations in empathy: evidence from neurotypical function and socio-cognitive disorders. Philos Trans R Soc B 371(1686):20150083
Lombardo MV, Chakrabarti B, Bullmore ET, Wheelwright SJ, Sadek SA, Suckling J, Baron-Cohen S, MRC Aims Consortium, Baron-Cohen S (2010) Shared neural circuits for mentalizing about the self and others. J Cognit Neurosci 22(7):1623–1635
Mar RA (2011) The neural bases of social cognition and story comprehension. Annu Rev Psychol 62:103–134
Mars RB, Sallet J, Schüffelgen U, Jbabdi S, Toni I, Rushworth MF (2012) Connectivity-based subdivisions of the human right “temporoparietal junction area”: evidence for different areas participating in different cortical networks. Cereb Cortex 22(8):1894–1903
Marsh LE, Bird G, Catmur C (2016) The imitation game: effects of social cues on ‘imitation’are domain-general in nature. NeuroImage 139:368–375
Mitchell JP (2007) Activity in right temporo-parietal junction is not selective for theory-of-mind. Cereb Cortex 18(2):262–271
Neisser U (1995) Criterion for an ecological self. In: Rochat P (ed) The self in infancy: theory and research. Elsevier, Amsterdam, pp 17–34
Nieuwenhuys R, Voogd J, Van Huijzen C (2007) The human central nervous system: a synopsis and atlas. Springer Science & Business Media, Berlin
Petkova VI, Ehrsson HH (2008) If I were you: perceptual illusion of body swapping. PLoS ONE 3(12):e3832
Piaget J, Inhelder B (1948) The child’s conception of space. Routledge and Kegan Paul, London
Poldrack RA (2006) Can cognitive processes be inferred from neuroimaging data? Trends Cognit Sci 10(2):59–63
Poldrack RA (2011) Inferring mental states from neuroimaging data: from reverse inference to large-scale decoding. Neuron 72(5):692–697
Premack D, Woodruff G (1978) Does the chimpanzee have a theory of mind? Behav Brain Sci 1:515–526
Pulvermüller F (2005) Brain mechanisms linking language and action. Nat Rev Neurosci 6(7):576
Quesque F, Chabanat E, Rossetti Y (2018) Taking the point of view of the blind: spontaneous level-2 perspective-taking in irrelevant conditions. J Exp Soc Psychol 79:356–364
Rogers C (1951) Client-centred therapy. Houghton-Mifflin, Boston
Quesque F, Rossetti, Y (in press) What do theory of mind tasks actually measure? Theory and practice. Perspect Psychol Sci
Santiesteban I, Banissy MJ, Catmur C, Bird G (2015) Functional lateralization of temporoparietal junction–imitation inhibition, visual perspective-taking and theory of mind. Eur J Neurosci 42(8):2527–2533
Saxe R, Kanwisher N (2003) People thinking about thinking people: the role of the temporo-parietal junction in “theory of mind”. Neuroimage 19(4):1835–1842
Saxe R, Wexler A (2005) Making sense of another mind: the role of the right temporo-parietal junction. Neuropsychologia 43:1391–1399
Schurz M, Aichhorn M, Martin A, Perner J (2013) Common brain areas engaged in false belief reasoning and visual perspective taking: a meta-analysis of functional brain imaging studies. Front Hum Neurosci 7:712
Schurz M, Kronbichler M, Weissengruber S, Surtees A, Samson D, Perner J (2015) Clarifying the role of theory of mind areas during visual perspective taking: issues of spontaneity and domain-specificity. NeuroImage 117:386–396
Serences JT, Shomstein S, Leber AB, Golay X, Egeth HE, Yantis S (2005) Coordination of voluntary and stimulus-driven attentional control in human cortex. Psychol Sci 16(2):114–122
Sierra M (2009) Depersonalization: a new look at a neglected syndrome. Cambridge University Press, Cambridge
Sierra M, Berrios GE (1998) Depersonalization: neurobiological perspectives. Biol Psychiat 44(9):898–908
Silani G, Lamm C, Ruff CC, Singer T (2013) Right supramarginal gyrus is crucial to overcome emotional egocentricity bias in social judgments. J Neurosci 33(39):15466–15476
Soutschek A, Ruff CC, Strombach T, Kalenscher T, Tobler PN (2016) Brain stimulation reveals crucial role of overcoming self-centeredness in self-control. Sci Adv 2(10):e1600992
Sowden S, Catmur C (2015) The role of the right temporoparietal junction in the control of imitation. Cereb Cortex 25(4):1107–1113
Spengler S, von Cramon DY, Brass M (2009) Was it me or was it you? How the sense of agency originates from ideomotor learning revealed by fMRI. Neuroimage 46(1):290–298
Sperduti M, Delaveau P, Fossati P, Nadel J (2011) Different brain structures related to self-and external-agency attribution: a brief review and meta-analysis. Brain Struct Funct 216(2):151–157
Tomova L, von Dawans B, Heinrichs M, Silani G, Lamm C (2014) Is stress affecting our ability to tune into others? Evidence for gender differences in the effects of stress on self-other distinction. Psychoneuroendocrinology 43:95–104
Tsakiris M, Haggard P (2005) The rubber hand illusion revisited: visuotactile integration and self-attribution. J Exp Psychol Hum Percept Perform 31(1):80
Uddin LQ (2011) The self in autism: an emerging view from neuroimaging. Neurocase 17(3):201–208
Uddin LQ, Molnar-Szakacs I, Zaidel E, Iacoboni M (2006) rTMS to the right inferior parietal lobule disrupts self-other discrimination. Soc Cognit Affect Neurosci 1:65–71
Van Ackeren MJ, Casasanto D, Bekkering H, Hagoort P, Rueschemeyer SA (2012) Pragmatics in action: indirect requests engage theory of mind areas and the cortical motor network. J Cognit Neurosci 24(11):2237–2247
Van Overwalle F (2009) Social cognition and the brain: a meta-analysis. Hum Brain Mapp 30(3):829–858
Vogeley K, Fink GR (2003) Neural correlates of the first-person perspective. Trends Cognit Neurosci 7:38–42
Vogeley K, Bussfeld P, Newen A, Herrmann S, Happé F, Falkai P, Maier W, Shah NJ, Fink GR, Zilles K (2001) Mind reading: neural mechanisms of theory of mind and self-perspective. Neuroimage 14(1):170–181
Wegner DM, Wheatley T (1999) Apparent mental causation: sources of the experience of will. Am Psychol 54(7):480
Wimmer H, Perner J (1983) Beliefs about beliefs: representation and constraining function of wrong beliefs in young children’s understanding of deception. Cognition 13:103–128
Yarkoni T, Poldrack RA, Nichols TE, Van Essen DC, Wager TD (2011) Large-scale automated synthesis of human functional neuroimaging data. Nat Methods 8(8):665
Young L, Camprodon JA, Hauser M, Pascual-Leone A, Saxe R (2010a) Disruption of the right temporoparietal junction with transcranial magnetic stimulation reduces the role of beliefs in moral judgments. Proc Natl Acad Sci 107(15):6753–6758
Young L, Dodell-Feder D, Saxe R (2010b) What gets the attention of the temporo-parietal junction? An fMRI investigation of attention and theory of mind. Neuropsychologia 48:2658–2664
Zaitchik D, Walker C, Miller S, LaViolette P, Feczko E, Dickerson BC (2010) Mental state attribution and the temporoparietal junction: an fMRI study comparing belief, emotion, and perception. Neuropsychologia 48(9):2528–2536
Author information
Authors and Affiliations
Corresponding author
Additional information
Handling Editor: Christoph M. Michel.
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
This is one of several papers published together in Brain Topography on the “Special Issue: Current Opinions in Brain Imaging Methods and Applications”.
Rights and permissions
About this article
Cite this article
Quesque, F., Brass, M. The Role of the Temporoparietal Junction in Self-Other Distinction. Brain Topogr 32, 943–955 (2019). https://doi.org/10.1007/s10548-019-00737-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10548-019-00737-5