Arachidonic acid‐derived dihydroxy fatty acids in neonatal cord blood relate symptoms of autism spectrum disorders and social adaptive functioning: Hamamatsu Birth Cohort for Mothers and Children (HBC Study)

Arachidonic acid‐derived dihydroxy fatty acids in neonatal cord blood relate symptoms of autism spectrum disorders and social adaptive functioning: Hamamatsu Birth Cohort for Mothers and Children (HBC Study)

Aim Autism spectrum disorder (ASD) is associated with abnormal lipid metabolism, such as a high total ratio of omega‐6 to omega‐3 in polyunsaturated fatty acids (PUFAs). PUFAs are metabolized to epoxy fatty acids by cytochrome P450 (CYP); then, dihydroxy fatty acid is produced by soluble epoxide hyd...

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Veröffentlicht in:Psychiatry and clinical neurosciences 2024-09, Vol.78 (9), p.546-557
Hauptverfasser: Hirai, Takaharu, Umeda, Naoko, Harada, Taeko, Okumura, Akemi, Nakayasu, Chikako, Ohto‐Nakanishi, Takayo, Tsuchiya, Kenji J., Nishimura, Tomoko, Matsuzaki, Hideo
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adaptive functioning
Arachidonic acid
Autism
Children
Cord blood
Cytochrome P450
Developmental stages
dihydroxy eicosatetraenoic acid
Epoxide hydrolase
Fatty acids
Fetuses
Lipid metabolism
Metabolites
Neonates
Polyunsaturated fatty acids
Regular
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container_end_page 557
container_issue 9
container_start_page 546
container_title Psychiatry and clinical neurosciences
container_volume 78
creator Hirai, Takaharu
Umeda, Naoko
Harada, Taeko
Okumura, Akemi
Nakayasu, Chikako
Ohto‐Nakanishi, Takayo
Tsuchiya, Kenji J.
Nishimura, Tomoko
Matsuzaki, Hideo
description Aim Autism spectrum disorder (ASD) is associated with abnormal lipid metabolism, such as a high total ratio of omega‐6 to omega‐3 in polyunsaturated fatty acids (PUFAs). PUFAs are metabolized to epoxy fatty acids by cytochrome P450 (CYP); then, dihydroxy fatty acid is produced by soluble epoxide hydrolase. This study examined the association between PUFA metabolites in the cord blood and ASD symptoms and adaptive functioning in children. Methods This prospective cohort study utilized cord blood to quantify PUFA metabolites of the CYP pathway. The Autism Diagnostic Observation Schedule (ADOS‐2) and Vineland Adaptive Behaviors Scales, Second Edition (VABS‐II) were used to assess subsequent ASD symptoms and adaptive functioning in children at 6 years. The analysis included 200 children and their mothers. Results Arachidonic acid‐derived diols, 11,12‐diHETrE was found to impact ASD symptom severity on the ADOS‐2‐calibrated severity scores and impairment in the socialization domain as assessed by the VABS‐II (P = 0.0003; P = 0.004, respectively). High levels of 11,12‐diHETrE impact social affect in ASD symptoms (P = 0.002), while low levels of 8,9‐diHETrE impact repetitive/restrictive behavior (P = 0.003). Notably, there was specificity in the association between diHETrE and ASD symptoms, especially in girls. Conclusion These findings suggest that the dynamics of diHETrE during the fetal period is important in the developmental trajectory of children after birth. Given that the role of diol metabolites in neurodevelopment in vivo is completely uncharacterized, the results of this study provide important insight into the role of diHETrE and ASD pathophysiology.
doi_str_mv 10.1111/pcn.13710
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PUFAs are metabolized to epoxy fatty acids by cytochrome P450 (CYP); then, dihydroxy fatty acid is produced by soluble epoxide hydrolase. This study examined the association between PUFA metabolites in the cord blood and ASD symptoms and adaptive functioning in children. Methods This prospective cohort study utilized cord blood to quantify PUFA metabolites of the CYP pathway. The Autism Diagnostic Observation Schedule (ADOS‐2) and Vineland Adaptive Behaviors Scales, Second Edition (VABS‐II) were used to assess subsequent ASD symptoms and adaptive functioning in children at 6 years. The analysis included 200 children and their mothers. Results Arachidonic acid‐derived diols, 11,12‐diHETrE was found to impact ASD symptom severity on the ADOS‐2‐calibrated severity scores and impairment in the socialization domain as assessed by the VABS‐II (P = 0.0003; P = 0.004, respectively). High levels of 11,12‐diHETrE impact social affect in ASD symptoms (P = 0.002), while low levels of 8,9‐diHETrE impact repetitive/restrictive behavior (P = 0.003). Notably, there was specificity in the association between diHETrE and ASD symptoms, especially in girls. Conclusion These findings suggest that the dynamics of diHETrE during the fetal period is important in the developmental trajectory of children after birth. Given that the role of diol metabolites in neurodevelopment in vivo is completely uncharacterized, the results of this study provide important insight into the role of diHETrE and ASD pathophysiology.</description><identifier>ISSN: 1323-1316</identifier><identifier>ISSN: 1440-1819</identifier><identifier>EISSN: 1440-1819</identifier><identifier>DOI: 10.1111/pcn.13710</identifier><identifier>PMID: 39041066</identifier><language>eng</language><publisher>Melbourne: John Wiley &amp; Sons Australia, Ltd</publisher><subject>adaptive functioning ; Arachidonic acid ; Autism ; Children ; Cord blood ; Cytochrome P450 ; Developmental stages ; dihydroxy eicosatetraenoic acid ; Epoxide hydrolase ; Fatty acids ; Fetuses ; Lipid metabolism ; Metabolites ; Neonates ; Polyunsaturated fatty acids ; Regular</subject><ispartof>Psychiatry and clinical neurosciences, 2024-09, Vol.78 (9), p.546-557</ispartof><rights>2024 The Author(s). published by John Wiley &amp; Sons Australia, Ltd on behalf of Japanese Society of Psychiatry and Neurology.</rights><rights>2024 The Author(s). 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PUFAs are metabolized to epoxy fatty acids by cytochrome P450 (CYP); then, dihydroxy fatty acid is produced by soluble epoxide hydrolase. This study examined the association between PUFA metabolites in the cord blood and ASD symptoms and adaptive functioning in children. Methods This prospective cohort study utilized cord blood to quantify PUFA metabolites of the CYP pathway. The Autism Diagnostic Observation Schedule (ADOS‐2) and Vineland Adaptive Behaviors Scales, Second Edition (VABS‐II) were used to assess subsequent ASD symptoms and adaptive functioning in children at 6 years. The analysis included 200 children and their mothers. Results Arachidonic acid‐derived diols, 11,12‐diHETrE was found to impact ASD symptom severity on the ADOS‐2‐calibrated severity scores and impairment in the socialization domain as assessed by the VABS‐II (P = 0.0003; P = 0.004, respectively). High levels of 11,12‐diHETrE impact social affect in ASD symptoms (P = 0.002), while low levels of 8,9‐diHETrE impact repetitive/restrictive behavior (P = 0.003). Notably, there was specificity in the association between diHETrE and ASD symptoms, especially in girls. Conclusion These findings suggest that the dynamics of diHETrE during the fetal period is important in the developmental trajectory of children after birth. Given that the role of diol metabolites in neurodevelopment in vivo is completely uncharacterized, the results of this study provide important insight into the role of diHETrE and ASD pathophysiology.</description><subject>adaptive functioning</subject><subject>Arachidonic acid</subject><subject>Autism</subject><subject>Children</subject><subject>Cord blood</subject><subject>Cytochrome P450</subject><subject>Developmental stages</subject><subject>dihydroxy eicosatetraenoic acid</subject><subject>Epoxide hydrolase</subject><subject>Fatty acids</subject><subject>Fetuses</subject><subject>Lipid metabolism</subject><subject>Metabolites</subject><subject>Neonates</subject><subject>Polyunsaturated fatty acids</subject><subject>Regular</subject><issn>1323-1316</issn><issn>1440-1819</issn><issn>1440-1819</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><sourceid>WIN</sourceid><recordid>eNp1kktu1TAUhiMEouXCgA2gIzFpB7e1Y18nYYLaCLhI5SEBY8vxo3GV2MF2CpmxBLbGFlgJpretAAl7YEvn0-dj-y-Kxxgd4TyOJ-mOMKkwulPsY0rRGte4uZv3pCRrTDDbKx7EeIEQIoTh-8UeaRDFiLH94sdJELK3yjsrQUirfn77rnSwl1qBsv2igv-6gBEpLVflCNaB096JJAaQPijoBu8VBD2IpCEu45T8GMEbEHOycYQ4aZnCPGZfzLwOEYRTEL20WSGUmFI-DszsZLK5D3f-DLZizDPFGU5tSD20vvchgfEB3vjU3zja3g4qaAcH29MWPqRZLYcPi3tGDFE_ul5XxaeXLz622_XZu1ev25OztSQkP1HVmarqWLVRTaMZRYKRjjRKb8quIVoZZZjZlJKhElFdG8yUzKCipaw7VLGOrIrnO-80d6NWUrsUxMCnYEcRFu6F5X9XnO35ub_kGNO6ZvkvVsXBtSH4z7OOiY82Sj0MIj_wHDlBNWF1SSjN6NN_0As_B5fvl6mmaeqSMpKpwx0lg48xaHPbDUb8d1J4Tgq_Skpmn_zZ_i15E40MHO-AL3bQy_9N_H37dqf8BSlizkM</recordid><startdate>202409</startdate><enddate>202409</enddate><creator>Hirai, Takaharu</creator><creator>Umeda, Naoko</creator><creator>Harada, Taeko</creator><creator>Okumura, Akemi</creator><creator>Nakayasu, Chikako</creator><creator>Ohto‐Nakanishi, Takayo</creator><creator>Tsuchiya, Kenji J.</creator><creator>Nishimura, Tomoko</creator><creator>Matsuzaki, Hideo</creator><general>John Wiley &amp; 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PUFAs are metabolized to epoxy fatty acids by cytochrome P450 (CYP); then, dihydroxy fatty acid is produced by soluble epoxide hydrolase. This study examined the association between PUFA metabolites in the cord blood and ASD symptoms and adaptive functioning in children. Methods This prospective cohort study utilized cord blood to quantify PUFA metabolites of the CYP pathway. The Autism Diagnostic Observation Schedule (ADOS‐2) and Vineland Adaptive Behaviors Scales, Second Edition (VABS‐II) were used to assess subsequent ASD symptoms and adaptive functioning in children at 6 years. The analysis included 200 children and their mothers. Results Arachidonic acid‐derived diols, 11,12‐diHETrE was found to impact ASD symptom severity on the ADOS‐2‐calibrated severity scores and impairment in the socialization domain as assessed by the VABS‐II (P = 0.0003; P = 0.004, respectively). High levels of 11,12‐diHETrE impact social affect in ASD symptoms (P = 0.002), while low levels of 8,9‐diHETrE impact repetitive/restrictive behavior (P = 0.003). Notably, there was specificity in the association between diHETrE and ASD symptoms, especially in girls. Conclusion These findings suggest that the dynamics of diHETrE during the fetal period is important in the developmental trajectory of children after birth. Given that the role of diol metabolites in neurodevelopment in vivo is completely uncharacterized, the results of this study provide important insight into the role of diHETrE and ASD pathophysiology.</abstract><cop>Melbourne</cop><pub>John Wiley &amp; Sons Australia, Ltd</pub><pmid>39041066</pmid><doi>10.1111/pcn.13710</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-4776-5153</orcidid><orcidid>https://orcid.org/0000-0002-6869-1261</orcidid><oa>free_for_read</oa></addata></record>
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source Access via Wiley Online Library; Open Access Titles of Japan
subjects adaptive functioning
Arachidonic acid
Autism
Children
Cord blood
Cytochrome P450
Developmental stages
dihydroxy eicosatetraenoic acid
Epoxide hydrolase
Fatty acids
Fetuses
Lipid metabolism
Metabolites
Neonates
Polyunsaturated fatty acids
Regular
title Arachidonic acid‐derived dihydroxy fatty acids in neonatal cord blood relate symptoms of autism spectrum disorders and social adaptive functioning: Hamamatsu Birth Cohort for Mothers and Children (HBC Study)
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