X-ray fluorescence microscopic measurement of elemental distribution in the mouse retina with age

Grubman, Alexandra; Guennel, Philipp; Vessey, Kirstan A.; Jones, Michael W. M.; James, Simon; Jonge, Martin D. de; White, Anthony R.; Fletcher, Erica L.

doi:10.1039/c6mt00055j

Cited by 6 publications

(10 citation statements)

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“…The suppression in bile acid metabolism during early recovery from profound FDM highlights the importance of maintaining energy metabolism in myopia. The GSEA findings provide supporting evidence for the RIDE model as well as complementing earlier biometric and ultrastructural findings showing that form-deprivation occlusion leads to changes in eye volume, refraction, thinning of the retina and choroid, and morphological evidence for hyperosmolarity ( Brocker, Thompson & Vasiliou, 2012 ; Crewther et al, 2006 ; Grubman et al, 2016 ; Hollborn et al, 2017 ; Junghans et al, 1999 ; Liang et al, 1995 ; Liang et al, 2004 ). Although a combination of posterior ocular tissue have been analysed in previous transcriptome studies on refractive errors ( McGlinn et al, 2007 ; Rada & Wiechmann, 2009 ; Riddell et al, 2016 ; Shelton et al, 2008 ; Stone et al, 2011 ), commonalities in differentially expressed genes have now been identified regardless of species, tissue analysed and genomic platform ( Riddell & Crewther, 2017a ).…”

Section: Discussionsupporting

confidence: 83%

“…Previous ultrastructural studies of form-deprivation in chick have demonstrated morphological abnormalities in photoreceptor outer segments, retinal pigment epithelium (RPE) nuclei, mitochondria and basal laminae ( Beresford, Crewther & Crewther, 1998 ; Liang et al, 1995 ; Liang et al, 2004 ; Liang et al, 1996 ) similar to those described elsewhere as characteristic of AMD ( Datta et al, 2017 ), CNV ( Ohno-Matsui et al, 2017 ) and glaucoma ( Kim & Park, 2017 ). These morphological changes occur concomitantly with elemental microanalytical evidence of hyperosmotic changes in ion distribution patterns across the retina, RPE and choroid ( Crewther et al, 2006 ; Grubman et al, 2016 ; Hollborn et al, 2017 ; Junghans et al, 1999 ; Liang et al, 1995 ; Liang et al, 2004 ) and reminiscent of physiologically induced hyperosmotic and oxidative stress elsewhere in the brain ( Brocker, Thompson & Vasiliou, 2012 ; Morland, Pettersen & Hassel, 2016 ; Veltmann et al, 2016 ). Indeed, oxidative stress has been suggested to contribute to the underlying mechanisms involved in profound myopia pathology ( Francisco, Salvador & Amparo, 2015 ).…”

Section: Introductionmentioning

confidence: 93%

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Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia

Giummarra

Crewther

Riddell

et al. 2018

PeerJ

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PurposeRNA sequencing analysis has demonstrated bidirectional changes in metabolism, structural and immune pathways during early induction of defocus induced myopia. Thus, the aim of this study was to investigate whether similar gene pathways are also related to the more excessive axial growth, ultrastructural and elemental microanalytic changes seen during the induction and recovery from form-deprivation myopia (FDM) in chicks and predicted by the RIDE model of myopia.MethodsArchived genomic transcriptome data from the first three days of induction of monocularly occluded form deprived myopia (FDMI) in chicks was obtained from the GEO database (accession # ) while data from chicks monocularly occluded for 10 days and then given up to 24 h of normal visual recovery (FDMR) were collected. Gene set enrichment analysis (GSEA) software was used to determine enriched pathways during the induction (FDMI) and recovery (FDMR) from FD. Curated gene-sets were obtained from open access sources.ResultsClusters of significant changes in mitochondrial energy metabolism, neurotransmission, ion channel transport, G protein coupled receptor signalling, complement cascades and neuron structure and growth were identified during the 10 days of induction of profound myopia and were found to correlate well with change in axial dimensions. Bile acid and bile salt metabolism pathways (cholesterol/lipid metabolism and sodium channel activation) were significantly upregulated during the first 24 h of recovery from 10 days of FDM.ConclusionsThe gene pathways altered during induction of FDM are similar to those reported in defocus induced myopia and are established indicators of oxidative stress, osmoregulatory and associated structural changes. These findings are also consistent with the choroidal thinning, axial elongation and hyperosmotic ion distribution patterns across the retina and choroid previously reported in FDM and predicted by RIDE.

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Section: Discussionsupporting

confidence: 83%

Section: Introductionmentioning

confidence: 93%

Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia

Giummarra

Crewther

Riddell

et al. 2018

PeerJ

View full text Add to dashboard Cite

show abstract

“…The suppression in bile acid metabolism during early recovery from profound FDM highlights the importance of maintaining energy metabolism in myopia. The GSEA findings provide supporting evidence for the RIDE model as well as complementing earlier biometric and ultrastructural findings showing that form-deprivation occlusion leads to changes in eye volume, refraction, thinning of the retina and choroid, and morphological evidence for hyperosmolarity (Brocker et al 2012;Crewther et al 2006;Grubman et al 2016;Hollborn et al 2017;Junghans et al 1999;Liang et al 1995;Liang et al 2004). Manuscript to be reviewed Stone et al 2011), commonalities in differentially expressed genes have now been identified regardless of species, tissue analysed and genomic platform (Riddell & Crewther 2017a).…”

Section: Discussionsupporting

confidence: 70%

“…2017), CNV (Ohno-Matsui et al 2017) and glaucoma (Kim & Park 2017). These morphological changes occur concomitantly with elemental microanalytical evidence of hyperosmotic changes in ion distribution patterns across the retina, RPE and choroid (Brocker et al 2012;Crewther et al 2006;Grubman et al 2016;Hollborn et al 2017;Junghans et al 1999;Liang et al 1995;Liang et al 2004) and reminiscent of physiologically induced hyperosmotic and oxidative stress elsewhere in the brain (Brocker et al 2012;Morland et al 2016;Veltmann et al 2016). Indeed, oxidative stress has been suggested to contribute to the underlying mechanisms involved in profound myopia pathology (Francisco et al 2015).…”

mentioning

confidence: 97%

Peer Review #1 of "Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia (v0.1)"

2018

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RNA sequencing analysis has demonstrated bidirectional changes in metabolism, structural and immune pathways during early induction of defocus induced myopia. Thus, the aim of this study was to investigate whether similar gene pathways are also related to the more excessive axial growth, ultrastructural and elemental microanalytic changes seen during the induction and recovery from form-deprivation myopia (FDM) in chick and predicted by the RIDE model of myopia. Methods Archived genomic transcriptome data from the first 3 days of induction of monocularly occluded form deprived myopia (FDMI) in chicks was obtained from the GEO database (accession # GSE6543) while data from chicks monocularly occluded for 10 days and then given up to 24 hours of normal visual recovery (FDMR) was collected. Gene set enrichment analysis (GSEA) software was used to determine enriched pathways during the induction (FDMI) and recovery (FDMR) from FD. Curated gene-sets were obtained from open access sources. Results: Clusters of significant changes in mitochondrial energy metabolism, neurotransmission, ion channel transport, G protein coupled receptor signalling, complement cascades and neuron structure and growth were identified during the 10 days of induction of profound myopia and found to correlate well with change in axial dimensions. Bile acid and bile salt metabolism pathways (cholesterol/lipid metabolism and sodium channel activation) were significantly upregulated during the first 24 hours of recovery from 10 days of FDM. Conclusions: The gene pathways altered during induction of FDM are similar to those reported in defocus induced myopia and are established indicators of oxidative stress, osmoreguatory and associated structural changes. These findings are also consistent with the choroidal thinning, axial elongation and hyperosmotic ion distribution patterns across the retina and choroid previously reported in FDM and predicted by RIDE.

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“…The nominal sample composition and thickness estimate is used to provide a first-order self-absorption correction, and inaccuracies have negligible impact on the quantitative concentrations of the first-row transition metals in these thin tissue sections, as reported by several groups. [83][84][85] Lighter element such as S and P are presented for distributional purposes only; absolute quantification of these elements is difficult and subject to significant errors from the assumption of matrix composition, thickness and density. Quantitative data were extracted as tiff files of quantitative per-pixel elemental area density in ng cm À2 , which were then imported into ImageJ v1.48, as described previously.…”

Section: Synchrotron Imagingmentioning

confidence: 99%

Elemental characterisation of the pyramidal neuron layer within the rat and mouse hippocampus

et al. 2019

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X-ray fluorescence microscopic measurement of elemental distribution in the mouse retina with age

Cited by 6 publications

References 49 publications

Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia

Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia

Peer Review #1 of "Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia (v0.1)"

Elemental characterisation of the pyramidal neuron layer within the rat and mouse hippocampus

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