Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity

Valerie J. Sydnor; Joëlle Bagautdinova; Bart Larsen; Michael J. Arcaro; Deanna M. Barch; Dani S. Bassett; Aaron F. Alexander-Bloch; Philip A. Cook; Sydney Covitz; Alexandre R. Franco; Raquel E. Gur; Ruben C. Gur; Allyson P. Mackey; Kahini Mehta; Steven L. Meisler; Michael P. Milham; Tyler M. Moore; Eli J. Müller; David R. Roalf; Taylor Salo; Gabriel Schubiner; Jakob Seidlitz; Russell T. Shinohara; James M. Shine; Fang Cheng Yeh; Matthew Cieslak; Theodore D. Satterthwaite

doi:10.1038/s41593-025-01991-6

Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity

Valerie J. Sydnor
, Joëlle Bagautdinova
, Bart Larsen
, Michael J. Arcaro
, Deanna M. Barch
, Dani S. Bassett
, Aaron F. Alexander-Bloch
, Philip A. Cook
, Sydney Covitz
, Alexandre R. Franco
, Raquel E. Gur
, Ruben C. Gur
, Allyson P. Mackey
, Kahini Mehta
, Steven L. Meisler
, Michael P. Milham
, Tyler M. Moore
, Eli J. Müller
, David R. Roalf
, Taylor Salo

Gabriel Schubiner, Jakob Seidlitz, Russell T. Shinohara, James M. Shine, Fang Cheng Yeh, Matthew Cieslak, Theodore D. Satterthwaite

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Human cortical development follows a hierarchical, sensorimotor-to-association sequence. The brain’s capacity to enact this sequence indicates that it relies on unknown mechanisms to regulate regional differences in the timing of cortical maturation. Given evidence from animal systems that thalamic axons mechanistically regulate periods of cortical plasticity, here we evaluate in humans whether the development of structural connections between the thalamus and cortex aligns with cortical maturational heterochronicity. By deriving a new tractography atlas of human thalamic connections and applying it to diffusion data from three youth samples (8–23 years; total n = 2,676), we demonstrate that thalamocortical connectivity matures in a generalizable manner along the cortex’s sensorimotor–association axis. Associative cortical regions with thalamic connections that take the longest to mature exhibit neurochemical, structural and functional signatures of protracted developmental plasticity as well as heightened sensitivity to the socioeconomic environment. This work highlights the role of the thalamus in the expression of hierarchical periods of cortical developmental plasticity and environmental receptivity.

Original language	English
Pages (from-to)	1772-1786
Number of pages	15
Journal	Nature neuroscience
Volume	28
Issue number	8
DOIs	https://doi.org/10.1038/s41593-025-01991-6
State	Published - Aug 2025

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Sydnor, V. J., Bagautdinova, J., Larsen, B., Arcaro, M. J., Barch, D. M., Bassett, D. S., Alexander-Bloch, A. F., Cook, P. A., Covitz, S., Franco, A. R., Gur, R. E., Gur, R. C., Mackey, A. P., Mehta, K., Meisler, S. L., Milham, M. P., Moore, T. M., Müller, E. J., Roalf, D. R., ... Satterthwaite, T. D. (2025). Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity. Nature neuroscience, 28(8), 1772-1786. https://doi.org/10.1038/s41593-025-01991-6

@article{c51b6d69cf84485ea691822e85102079,

title = "Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity",

abstract = "Human cortical development follows a hierarchical, sensorimotor-to-association sequence. The brain{\textquoteright}s capacity to enact this sequence indicates that it relies on unknown mechanisms to regulate regional differences in the timing of cortical maturation. Given evidence from animal systems that thalamic axons mechanistically regulate periods of cortical plasticity, here we evaluate in humans whether the development of structural connections between the thalamus and cortex aligns with cortical maturational heterochronicity. By deriving a new tractography atlas of human thalamic connections and applying it to diffusion data from three youth samples (8–23 years; total n = 2,676), we demonstrate that thalamocortical connectivity matures in a generalizable manner along the cortex{\textquoteright}s sensorimotor–association axis. Associative cortical regions with thalamic connections that take the longest to mature exhibit neurochemical, structural and functional signatures of protracted developmental plasticity as well as heightened sensitivity to the socioeconomic environment. This work highlights the role of the thalamus in the expression of hierarchical periods of cortical developmental plasticity and environmental receptivity.",

author = "Sydnor, \{Valerie J.\} and Jo{\"e}lle Bagautdinova and Bart Larsen and Arcaro, \{Michael J.\} and Barch, \{Deanna M.\} and Bassett, \{Dani S.\} and Alexander-Bloch, \{Aaron F.\} and Cook, \{Philip A.\} and Sydney Covitz and Franco, \{Alexandre R.\} and Gur, \{Raquel E.\} and Gur, \{Ruben C.\} and Mackey, \{Allyson P.\} and Kahini Mehta and Meisler, \{Steven L.\} and Milham, \{Michael P.\} and Moore, \{Tyler M.\} and M{\"u}ller, \{Eli J.\} and Roalf, \{David R.\} and Taylor Salo and Gabriel Schubiner and Jakob Seidlitz and Shinohara, \{Russell T.\} and Shine, \{James M.\} and Yeh, \{Fang Cheng\} and Matthew Cieslak and Satterthwaite, \{Theodore D.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = aug,

doi = "10.1038/s41593-025-01991-6",

language = "English",

volume = "28",

pages = "1772--1786",

journal = "Nature neuroscience",

issn = "1097-6256",

number = "8",

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Sydnor, VJ, Bagautdinova, J, Larsen, B, Arcaro, MJ, Barch, DM, Bassett, DS, Alexander-Bloch, AF, Cook, PA, Covitz, S, Franco, AR, Gur, RE, Gur, RC, Mackey, AP, Mehta, K, Meisler, SL, Milham, MP, Moore, TM, Müller, EJ, Roalf, DR, Salo, T, Schubiner, G, Seidlitz, J, Shinohara, RT, Shine, JM, Yeh, FC, Cieslak, M & Satterthwaite, TD 2025, 'Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity', Nature neuroscience, vol. 28, no. 8, pp. 1772-1786. https://doi.org/10.1038/s41593-025-01991-6

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T1 - Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity

AU - Sydnor, Valerie J.

AU - Bagautdinova, Joëlle

AU - Larsen, Bart

AU - Arcaro, Michael J.

AU - Barch, Deanna M.

AU - Bassett, Dani S.

AU - Alexander-Bloch, Aaron F.

AU - Cook, Philip A.

AU - Covitz, Sydney

AU - Franco, Alexandre R.

AU - Gur, Raquel E.

AU - Gur, Ruben C.

AU - Mackey, Allyson P.

AU - Mehta, Kahini

AU - Meisler, Steven L.

AU - Milham, Michael P.

AU - Moore, Tyler M.

AU - Müller, Eli J.

AU - Roalf, David R.

AU - Salo, Taylor

AU - Schubiner, Gabriel

AU - Seidlitz, Jakob

AU - Shinohara, Russell T.

AU - Shine, James M.

AU - Yeh, Fang Cheng

AU - Cieslak, Matthew

AU - Satterthwaite, Theodore D.

PY - 2025/8

Y1 - 2025/8

N2 - Human cortical development follows a hierarchical, sensorimotor-to-association sequence. The brain’s capacity to enact this sequence indicates that it relies on unknown mechanisms to regulate regional differences in the timing of cortical maturation. Given evidence from animal systems that thalamic axons mechanistically regulate periods of cortical plasticity, here we evaluate in humans whether the development of structural connections between the thalamus and cortex aligns with cortical maturational heterochronicity. By deriving a new tractography atlas of human thalamic connections and applying it to diffusion data from three youth samples (8–23 years; total n = 2,676), we demonstrate that thalamocortical connectivity matures in a generalizable manner along the cortex’s sensorimotor–association axis. Associative cortical regions with thalamic connections that take the longest to mature exhibit neurochemical, structural and functional signatures of protracted developmental plasticity as well as heightened sensitivity to the socioeconomic environment. This work highlights the role of the thalamus in the expression of hierarchical periods of cortical developmental plasticity and environmental receptivity.

AB - Human cortical development follows a hierarchical, sensorimotor-to-association sequence. The brain’s capacity to enact this sequence indicates that it relies on unknown mechanisms to regulate regional differences in the timing of cortical maturation. Given evidence from animal systems that thalamic axons mechanistically regulate periods of cortical plasticity, here we evaluate in humans whether the development of structural connections between the thalamus and cortex aligns with cortical maturational heterochronicity. By deriving a new tractography atlas of human thalamic connections and applying it to diffusion data from three youth samples (8–23 years; total n = 2,676), we demonstrate that thalamocortical connectivity matures in a generalizable manner along the cortex’s sensorimotor–association axis. Associative cortical regions with thalamic connections that take the longest to mature exhibit neurochemical, structural and functional signatures of protracted developmental plasticity as well as heightened sensitivity to the socioeconomic environment. This work highlights the role of the thalamus in the expression of hierarchical periods of cortical developmental plasticity and environmental receptivity.

UR - https://www.scopus.com/pages/publications/105009628098

U2 - 10.1038/s41593-025-01991-6

DO - 10.1038/s41593-025-01991-6

M3 - Article

C2 - 40615590

AN - SCOPUS:105009628098

SN - 1097-6256

VL - 28

SP - 1772

EP - 1786

JO - Nature neuroscience

JF - Nature neuroscience

IS - 8

ER -

Human thalamocortical structural connectivity develops in line with a hierarchical axis of cortical plasticity

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