Connectional asymmetry of the inferior parietal lobule shapes hemispheric specialization in humans, chimpanzees, and rhesus macaques

The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally and functionally asymmetric regions in the human cerebral cortex. Whether the structural and connectional asymmetries of IPL subdivisions diffe...

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Published ineLife Vol. 10
Main Authors Cheng, Luqi, Zhang, Yuanchao, Li, Gang, Wang, Jiaojian, Sherwood, Chet, Gong, Gaolang, Fan, Lingzhong, Jiang, Tianzi
Format Journal Article
LanguageEnglish
Published England eLife Sciences Publications Ltd 02.07.2021
eLife Sciences Publications, Ltd
Subjects
anatomical connectivity
Animals
Asymmetry
Brain
brain asymmetry
brain evolution
Brain Mapping
Cerebral cortex
Cortex (frontal)
Cortex (motor)
Cortex (parietal)
Cortex (temporal)
Evolution
Evolutionary Biology
Female
Handedness
Hemispheric laterality
Humans
inferior parietal lobule
Macaca mulatta
Male
Mars
Monkeys & apes
Neural networks
Neural Pathways - anatomy & histology
Neuroscience
Pan troglodytes
parcellation
Parietal Lobe - anatomy & histology
Primates
Tool use
anatomical connectivity
rhesus macaque
evolutionary biology
neuroscience
inferior parietal lobule
brain evolution
parcellation
brain asymmetry
human
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Abstract The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally and functionally asymmetric regions in the human cerebral cortex. Whether the structural and connectional asymmetries of IPL subdivisions differ across primate species and how this relates to functional asymmetries remain unclear. We identified IPL subregions that exhibited positive allometric in both hemispheres, scaling across rhesus macaque monkeys, chimpanzees, and humans. The patterns of IPL subregions asymmetry were similar in chimpanzees and humans, but no IPL asymmetries were evident in macaques. Among the comparative sample of primates, humans showed the most widespread asymmetric connections in the frontal, parietal, and temporal cortices, constituting leftward asymmetric networks that may provide an anatomical basis for language and tool use. Unique human asymmetric connectivity between the IPL and primary motor cortex might be related to handedness. These findings suggest that structural and connectional asymmetries may underlie hemispheric specialization of the human brain.
AbstractList The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally and functionally asymmetric regions in the human cerebral cortex. Whether the structural and connectional asymmetries of IPL subdivisions differ across primate species and how this relates to functional asymmetries remain unclear. We identified IPL subregions that exhibited positive allometric in both hemispheres, scaling across rhesus macaque monkeys, chimpanzees, and humans. The patterns of IPL subregions asymmetry were similar in chimpanzees and humans, but no IPL asymmetries were evident in macaques. Among the comparative sample of primates, humans showed the most widespread asymmetric connections in the frontal, parietal, and temporal cortices, constituting leftward asymmetric networks that may provide an anatomical basis for language and tool use. Unique human asymmetric connectivity between the IPL and primary motor cortex might be related to handedness. These findings suggest that structural and connectional asymmetries may underlie hemispheric specialization of the human brain.The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally and functionally asymmetric regions in the human cerebral cortex. Whether the structural and connectional asymmetries of IPL subdivisions differ across primate species and how this relates to functional asymmetries remain unclear. We identified IPL subregions that exhibited positive allometric in both hemispheres, scaling across rhesus macaque monkeys, chimpanzees, and humans. The patterns of IPL subregions asymmetry were similar in chimpanzees and humans, but no IPL asymmetries were evident in macaques. Among the comparative sample of primates, humans showed the most widespread asymmetric connections in the frontal, parietal, and temporal cortices, constituting leftward asymmetric networks that may provide an anatomical basis for language and tool use. Unique human asymmetric connectivity between the IPL and primary motor cortex might be related to handedness. These findings suggest that structural and connectional asymmetries may underlie hemispheric specialization of the human brain.
The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally and functionally asymmetric regions in the human cerebral cortex. Whether the structural and connectional asymmetries of IPL subdivisions differ across primate species and how this relates to functional asymmetries remain unclear. We identified IPL subregions that exhibited positive allometric in both hemispheres, scaling across rhesus macaque monkeys, chimpanzees, and humans. The patterns of IPL subregions asymmetry were similar in chimpanzees and humans, but no IPL asymmetries were evident in macaques. Among the comparative sample of primates, humans showed the most widespread asymmetric connections in the frontal, parietal, and temporal cortices, constituting leftward asymmetric networks that may provide an anatomical basis for language and tool use. Unique human asymmetric connectivity between the IPL and primary motor cortex might be related to handedness. These findings suggest that structural and connectional asymmetries may underlie hemispheric specialization of the human brain.
Author Zhang, Yuanchao
Jiang, Tianzi
Wang, Jiaojian
Li, Gang
Gong, Gaolang
Fan, Lingzhong
Sherwood, Chet
Cheng, Luqi
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/34219649$$D View this record in MEDLINE/PubMed
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Keywords anatomical connectivity
rhesus macaque
evolutionary biology
neuroscience
inferior parietal lobule
brain evolution
parcellation
brain asymmetry
human
Language English
License 2021, Cheng et al.
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Snippet The inferior parietal lobule (IPL) is one of the most expanded cortical regions in humans relative to other primates. It is also among the most structurally...
SourceID doaj
pubmedcentral
proquest
pubmed
crossref
SourceType Open Website
Open Access Repository
Aggregation Database
Index Database
Enrichment Source
SubjectTerms anatomical connectivity
Animals
Asymmetry
Brain
brain asymmetry
brain evolution
Brain Mapping
Cerebral cortex
Cortex (frontal)
Cortex (motor)
Cortex (parietal)
Cortex (temporal)
Evolution
Evolutionary Biology
Female
Handedness
Hemispheric laterality
Humans
inferior parietal lobule
Macaca mulatta
Male
Mars
Monkeys & apes
Neural networks
Neural Pathways - anatomy & histology
Neuroscience
Pan troglodytes
parcellation
Parietal Lobe - anatomy & histology
Primates
Tool use
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Title Connectional asymmetry of the inferior parietal lobule shapes hemispheric specialization in humans, chimpanzees, and rhesus macaques
URI https://www.ncbi.nlm.nih.gov/pubmed/34219649
https://www.proquest.com/docview/2595207354
https://www.proquest.com/docview/2548614069
https://pubmed.ncbi.nlm.nih.gov/PMC8257252
https://doaj.org/article/860c3cceab034e96bc9db2c27de7477e
Volume 10
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