Literature DB >> 33836056

Association between Quantitative MR Markers of Cortical Evolving Organization and Gene Expression during Human Prenatal Brain Development.

Lana Vasung1,2,3,4, Chenying Zhao5,6, Matthew Barkovich7,8, Caitlin K Rollins4,9,10, Jennings Zhang1,2, Claude Lepage11, Teddy Corcoran12, Clemente Velasco-Annis4,13,14, Hyuk Jin Yun1,2,3, Kiho Im1,2,3, Simon Keith Warfield13,14, Alan Charles Evans11, Hao Huang5,15, Ali Gholipour4,13,14, Patricia Ellen Grant1,2,3,14.   

Abstract

The relationship between structural changes of the cerebral cortex revealed by Magnetic Resonance Imaging (MRI) and gene expression in the human fetal brain has not been explored. In this study, we aimed to test the hypothesis that relative regional thickness (a measure of cortical evolving organization) of fetal cortical compartments (cortical plate [CP] and subplate [SP]) is associated with expression levels of genes with known cortical phenotype. Mean regional SP/CP thickness ratios across age measured on in utero MRI of 25 healthy fetuses (20-33 gestational weeks [GWs]) were correlated with publicly available regional gene expression levels (23-24 GW fetuses). Larger SP/CP thickness ratios (more pronounced cortical evolving organization) was found in perisylvian regions. Furthermore, we found a significant association between SP/CP thickness ratio and expression levels of the FLNA gene (mutated in periventricular heterotopia, congenital heart disease, and vascular malformations). Further work is needed to identify early MRI biomarkers of gene expression that lead to abnormal cortical development.
© The Author(s) 2021. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.

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Keywords:  cortical evolving organization; cortical thickness; fetal brain; fetus; gene expression; subplate

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Year:  2021        PMID: 33836056      PMCID: PMC8258434          DOI: 10.1093/cercor/bhab035

Source DB:  PubMed          Journal:  Cereb Cortex        ISSN: 1047-3211            Impact factor:   5.357


  62 in total

1.  Age terminology during the perinatal period.

Authors:  William A Engle
Journal:  Pediatrics       Date:  2004-11       Impact factor: 7.124

2.  Automated 3-D extraction and evaluation of the inner and outer cortical surfaces using a Laplacian map and partial volume effect classification.

Authors:  June Sic Kim; Vivek Singh; Jun Ki Lee; Jason Lerch; Yasser Ad-Dab'bagh; David MacDonald; Jong Min Lee; Sun I Kim; Alan C Evans
Journal:  Neuroimage       Date:  2005-08-01       Impact factor: 6.556

Review 3.  Delineation of early brain development from fetuses to infants with diffusion MRI and beyond.

Authors:  Minhui Ouyang; Jessica Dubois; Qinlin Yu; Pratik Mukherjee; Hao Huang
Journal:  Neuroimage       Date:  2018-04-12       Impact factor: 6.556

4.  A novel CNS gene required for neuronal migration and involved in X-linked subcortical laminar heterotopia and lissencephaly syndrome.

Authors:  V des Portes; J M Pinard; P Billuart; M C Vinet; A Koulakoff; A Carrié; A Gelot; E Dupuis; J Motte; Y Berwald-Netter; M Catala; A Kahn; C Beldjord; J Chelly
Journal:  Cell       Date:  1998-01-09       Impact factor: 41.582

Review 5.  Fetal brain growth portrayed by a spatiotemporal diffusion tensor MRI atlas computed from in utero images.

Authors:  Shadab Khan; Lana Vasung; Bahram Marami; Caitlin K Rollins; Onur Afacan; Cynthia M Ortinau; Edward Yang; Simon K Warfield; Ali Gholipour
Journal:  Neuroimage       Date:  2018-08-30       Impact factor: 6.556

Review 6.  Development of axonal pathways in the human fetal fronto-limbic brain: histochemical characterization and diffusion tensor imaging.

Authors:  Lana Vasung; Hao Huang; Nataša Jovanov-Milošević; Mihovil Pletikos; Susumu Mori; Ivica Kostović
Journal:  J Anat       Date:  2010-10       Impact factor: 2.610

7.  Cell-Type-Specific Alternative Splicing Governs Cell Fate in the Developing Cerebral Cortex.

Authors:  Xiaochang Zhang; Ming Hui Chen; Xuebing Wu; Andrew Kodani; Jean Fan; Ryan Doan; Manabu Ozawa; Jacqueline Ma; Nobuaki Yoshida; Jeremy F Reiter; Douglas L Black; Peter V Kharchenko; Phillip A Sharp; Christopher A Walsh
Journal:  Cell       Date:  2016-08-25       Impact factor: 41.582

8.  Filamin A and Filamin B are co-expressed within neurons during periods of neuronal migration and can physically interact.

Authors:  Volney L Sheen; Yuanyi Feng; Donna Graham; Toshiro Takafuta; Sandor S Shapiro; Christopher A Walsh
Journal:  Hum Mol Genet       Date:  2002-11-01       Impact factor: 6.150

9.  Differential cortical microstructural maturation in the preterm human brain with diffusion kurtosis and tensor imaging.

Authors:  Minhui Ouyang; Tina Jeon; Aristeidis Sotiras; Qinmu Peng; Virendra Mishra; Cathy Halovanic; Min Chen; Lina Chalak; Nancy Rollins; Timothy P L Roberts; Christos Davatzikos; Hao Huang
Journal:  Proc Natl Acad Sci U S A       Date:  2019-02-19       Impact factor: 11.205

10.  Subplate neurons: crucial regulators of cortical development and plasticity.

Authors:  Patrick O Kanold
Journal:  Front Neuroanat       Date:  2009-08-20       Impact factor: 3.856
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1.  Brain MRI Radiomics Analysis of School-Aged Children with Tetralogy of Fallot.

Authors:  Yiwei Pu; Songmei Li; Siyu Ma; Yuanli Hu; Qinghui Hu; Yuting Liu; Mengting Wu; Jia An; Ming Yang; Xuming Mo
Journal:  Comput Math Methods Med       Date:  2021-10-29       Impact factor: 2.238

2.  Brain charts for the human lifespan.

Authors:  R A I Bethlehem; J Seidlitz; S R White; J W Vogel; K M Anderson; C Adamson; S Adler; G S Alexopoulos; E Anagnostou; A Areces-Gonzalez; D E Astle; B Auyeung; M Ayub; J Bae; G Ball; S Baron-Cohen; R Beare; S A Bedford; V Benegal; F Beyer; J Blangero; M Blesa Cábez; J P Boardman; M Borzage; J F Bosch-Bayard; N Bourke; V D Calhoun; M M Chakravarty; C Chen; C Chertavian; G Chetelat; Y S Chong; J H Cole; A Corvin; M Costantino; E Courchesne; F Crivello; V L Cropley; J Crosbie; N Crossley; M Delarue; R Delorme; S Desrivieres; G A Devenyi; M A Di Biase; R Dolan; K A Donald; G Donohoe; K Dunlop; A D Edwards; J T Elison; C T Ellis; J A Elman; L Eyler; D A Fair; E Feczko; P C Fletcher; P Fonagy; C E Franz; L Galan-Garcia; A Gholipour; J Giedd; J H Gilmore; D C Glahn; I M Goodyer; P E Grant; N A Groenewold; F M Gunning; R E Gur; R C Gur; C F Hammill; O Hansson; T Hedden; A Heinz; R N Henson; K Heuer; J Hoare; B Holla; A J Holmes; R Holt; H Huang; K Im; J Ipser; C R Jack; A P Jackowski; T Jia; K A Johnson; P B Jones; D T Jones; R S Kahn; H Karlsson; L Karlsson; R Kawashima; E A Kelley; S Kern; K W Kim; M G Kitzbichler; W S Kremen; F Lalonde; B Landeau; S Lee; J Lerch; J D Lewis; J Li; W Liao; C Liston; M V Lombardo; J Lv; C Lynch; T T Mallard; M Marcelis; R D Markello; S R Mathias; B Mazoyer; P McGuire; M J Meaney; A Mechelli; N Medic; B Misic; S E Morgan; D Mothersill; J Nigg; M Q W Ong; C Ortinau; R Ossenkoppele; M Ouyang; L Palaniyappan; L Paly; P M Pan; C Pantelis; M M Park; T Paus; Z Pausova; D Paz-Linares; A Pichet Binette; K Pierce; X Qian; J Qiu; A Qiu; A Raznahan; T Rittman; A Rodrigue; C K Rollins; R Romero-Garcia; L Ronan; M D Rosenberg; D H Rowitch; G A Salum; T D Satterthwaite; H L Schaare; R J Schachar; A P Schultz; G Schumann; M Schöll; D Sharp; R T Shinohara; I Skoog; C D Smyser; R A Sperling; D J Stein; A Stolicyn; J Suckling; G Sullivan; Y Taki; B Thyreau; R Toro; N Traut; K A Tsvetanov; N B Turk-Browne; J J Tuulari; C Tzourio; É Vachon-Presseau; M J Valdes-Sosa; P A Valdes-Sosa; S L Valk; T van Amelsvoort; S N Vandekar; L Vasung; L W Victoria; S Villeneuve; A Villringer; P E Vértes; K Wagstyl; Y S Wang; S K Warfield; V Warrier; E Westman; M L Westwater; H C Whalley; A V Witte; N Yang; B Yeo; H Yun; A Zalesky; H J Zar; A Zettergren; J H Zhou; H Ziauddeen; A Zugman; X N Zuo; E T Bullmore; A F Alexander-Bloch
Journal:  Nature       Date:  2022-04-06       Impact factor: 69.504
  2 in total

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