Junji Hoshiba scite author profile

This study was conducted to determine whether provision of preformed dietary docosapentaenoic acid (DPAn-6) can replace docosahexaenoic acid (DHA) for brain function as assessed by spatial task performance. A newly modified artificial rearing method was employed to generate n-3 fatty aciddeficient rats. Newborn pups were separated from their mothers at 2 days of age and given artificial rat milk containing linoleic acid (LA), or LA supplemented with 1% DHA (DHA), 1% DPAn-6 (DPA) or 1% DHA plus 0.4% DPAn-6 (DHA/DPA). The animals were then weaned onto similar pelleted diets. At adulthood, behavioural tasks were administered and then the brains were collected for fatty acid analysis. The LA and DPA groups showed a lower (63-65%) brain DHA than the damreared, DHA and DHA/DPA groups and this loss was largely compensated for by an increase in brain DPAn-6. The brain fatty acid composition in the DPA group was the same as that in the LA group at adulthood. In the Morris water maze, the LA and DPA groups exhibited a longer escape latency than the damreared and DHA groups and had a defect in spatial retention. In conclusion, DPAn-6 could not replace DHA for brain function, indicating a highly specific structural requirement for DHA.

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Decreased development of necrotizing enterocolitis in IL-18-deficient mice

Halpern

Khailová

Molla-Hosseini

et al. 2008

American Journal of Physiology-Gastrointestinal and Liver Physi

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Necrotizing enterocolitis (NEC) is a devastating gastrointestinal disease predominantly of prematurely born infants, characterized in its severest from by extensive hemorrhagic inflammatory necrosis of the distal ileum and proximal colon. Proinflammatory cytokines have been implicated in the development of NEC, and we have previously shown that IL-18 is significantly elevated in the well-established neonatal rat model of NEC. To determine whether IL-18 contributes to intestinal pathology in NEC, we subjected IL-18 knockout mice to the protocol used to develop experimental NEC in newborn rats. Newborn B6.129P2-Il18(tm1Aki)/J (NEC IL-18(-/-)) and wild-type (NEC WT) mice were hand fed every 3 h with cow's milk-based formula and exposed to asphyxia and cold stress twice daily. After 72 h, animals were killed and distal ileum and liver were removed. Disease development was determined via histological changes in the ileum as scored by a blinded evaluator. The number of TNF-alpha-, IL-12-, and IL-1beta-positive cells and macrophages were determined in both ileum and liver via immunohistology. IkappaB-alpha and IkappaB-beta were determined from protein extracts from both ileum and liver using Western blot analysis. The incidence and severity of NEC was significantly reduced in NEC IL-18(-/-) mice compared with NEC WT. Furthermore, mean ileal macrophages and hepatic IL-1beta were significantly reduced in IL-18(-/-) mice subjected to the NEC protocol. There were no statistically significant changes in Kupffer cells, hepatic TNF-alpha, ileal IL-1beta, or IL-12. IkappaB-alpha and IkappaB-beta were significantly increased in NEC IL-18(-/-) mice ileum and liver, respectively. These results confirm that IL-18 plays a crucial role in experimental NEC pathogenesis.

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N-3 Fatty Acid Deficiency Induced by a Modified Artificial Rearing Method Leads to Poorer Performance in Spatial Learning Tasks

et al. 2005

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Junji Hoshiba

An extraordinary degree of structural specificity is required in neural phospholipids for optimal brain function: n‐6 docosapentaenoic acid substitution for docosahexaenoic acid leads to a loss in spatial task performance

Decreased development of necrotizing enterocolitis in IL-18-deficient mice

N-3 Fatty Acid Deficiency Induced by a Modified Artificial Rearing Method Leads to Poorer Performance in Spatial Learning Tasks

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