Further dissection of QTLs for salt-induced stroke and identification of candidate genes in the stroke-prone spontaneously hypertensive rat

Niiya, Kaoru; Ohara, Hirotaka; Isono, Motohide; Sheikh, Abdullah Md.; Matsuo, H.; Fujikawa, Koichi; Isomura, Minoru; Kato, Norihiro; Nabika, Toru

doi:10.1038/s41598-018-27539-2

Cited by 10 publications

(23 citation statements)

References 29 publications

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“…Additionally, expression of CXCL17 is co-regulated with other proangiogenic molecules as IL-8, GRO-1 and VEGF in samples from lung, breast and esophageal cancers [20]. Finally, CXCL17 is one of the most important genes mutated within specific genetic loci of stroke susceptibility in stroke-prone spontaneously hypertensive rats, a murine model of spontaneous cerebral hemorrhage suggesting a potential participation of this chemokine in the maintenance of vascular structure [38].…”

Section: Angiogenic Effectmentioning

confidence: 99%

“…Angiogenic activity of CXC chemokines is dependent on the presence or absence of the ELR motif [10,37]. Although the ELR motif has not been described in CXCL17, functionally it behaves as a member of the group of angiogenic factors [20,23,38]. In fact, several human endothelial cell lines such as human microvascular endothelial cells (HMVEC), sephranose vascular endothelial cells (SPVEC) and human umbilical vascular endothelial cells (HUVEC) express higher levels of CXCL17 during proliferation or tube formation [20].…”

Section: Angiogenic Effectmentioning

confidence: 99%

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The protective and pathogenic roles of CXCL17 in human health and disease: Potential in respiratory medicine

Choreño-Parra

Thirunavukkarasu

Zúñiga

et al. 2020

Cytokine & Growth Factor Reviews

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Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre-including this research content-immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.

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Section: Angiogenic Effectmentioning

confidence: 99%

Section: Angiogenic Effectmentioning

confidence: 99%

The protective and pathogenic roles of CXCL17 in human health and disease: Potential in respiratory medicine

Choreño-Parra

Thirunavukkarasu

Zúñiga

et al. 2020

Cytokine & Growth Factor Reviews

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“…SHRSP/Izm rats were provided by the Disease Model Cooperative Research Association (Kyoto, Japan). Subcongenic strains harboring a SHR/Izm-derived chr-1 fragment on the genetic background of SHRSP/Izm were obtained as described previously [ 3 , 4 ]. Briefly, Pr1.10 females (termed SHRSP.SHR-( D1Mgh5 - D1Got87 )/Izm, NBRP Rat No.0709) were backcrossed with a SHRSP/Izm male, and the resulting F1 rats were intercrossed to obtain pups of the F2 generation.…”

Section: Methodsmentioning

confidence: 99%

“…Previously, we identified major quantitative trait loci (QTL) for salt-induced stroke on chromosome (chr) 1 and 18 by linkage analysis [ 3 ]. In a recent study using reciprocal congenic strains for the stroke QTLs [ 4 ], we identified six candidate genes (Cbl protooncogene C, Cblc ; C-X-C motif chemokine ligand 17, Cxcl17 ; zinc finger protein 45-like, LOC102548695 , Zfp45L ; ETHE1 persulfide dioxygenase, Ethe1 ; capicua transcriptional repressor, Cic ; and carcinoembryonic antigen-related cell adhesion molecule 19, Ceacam 19 ) in a 3-Mbp fragment on chr 1 covered by a SHRSP-based congenic strain, Pr1.31. However, as the annotated molecular functions of these six genes were not directly involved in the development of stroke, it is essential to explore their functional roles in the development of stroke or to reduce the number of candidate genes further (ideally, to only one).…”

Section: Introductionmentioning

confidence: 99%

A 3-Mbp fragment on rat chromosome 1 affects susceptibility both to stroke and kidney injury under salt loading in the stroke-prone spontaneously hypertensive rat: a genetic approach using multiple congenic strains

et al. 2022

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We have previously reported that a major quantitative trait locus (QTL) responsible for susceptibility to salt-induced stroke in the stroke-prone spontaneously hypertensive rat (SHRSP) is located in a 3-Mbp region on chromosome 1 covered by SHRSP.SHR-( D1Rat23 - D1Rat213 )/Izm (termed Pr1.31), a congenic strain with segments from SHRSP/Izm introduced into the stroke-resistant SHR/Izm. Here, we attempted to narrow down the candidate region on chromosome 1 further through analyses of subcongenic strains constructed for the target region. Simultaneously, salt-induced kidney injury was evaluated through the measurement of urinary albumin and the gene expression of renal tubular injury markers ( Kim-1 and Clu ) to explore a possible mechanism leading to the onset of stroke. All subcongenic strains examined in this study showed lower susceptibility to salt-induced stroke than SHRSP. Interestingly, Pr1.31 had the lowest stroke susceptibility when compared with newly constructed subcongenic strains harboring fragments of the congenic sequence in Pr1.31. Although Kim-1 and Clu expression after 1 week of salt loading in Pr1.31 did not differ significantly from those in SHRSP, the urinary albumin level of Pr1.31 was significantly lower than those of the other subcongenic strains and that of SHRSP. The present results indicated that, although the congenic fragment in Pr1.31 harbored the gene(s) related to salt-induced organ damages, further genetic dissection of the candidate region was difficult due to multiple QTLs suggested in this region. Further analysis using Pr1.31 will unveil genetic and pathophysiological mechanisms underlying salt-induced end organ damages in SHRSP.

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“…Gene expression of Col1α-1 , Tgf- β , α-Sma ( markers for fibrosis), and Kim-1 ( a marker for tubular injury) was determined in the kidney by quantitative RT-PCR as described previously [15, 16]. The primers used are as follows: α-Sma : GAGATCTCACCGACTACCTCATGA (forward), TCATTTTCAAAGTCCAGAGCGACA (reverse), Tgf- β : ATCCATGACATGAACCGACCCT (forward), GCCGTACACAGCAGTTCTTCTC (reverse), Col1α -1 : ACATGTTCAGCTTTGTGGACCTC (forward), TCAGGTTTCCACGTCTCACCA (reverse), Kim-1 : GGAGCAGCGGTCGATACAACATA (forward), TCTCCACTCGGCAACAATACAGAC (reverse).…”

Section: Methodsmentioning

confidence: 99%

Evaluation of Pathological Association between Stroke-Related QTL and Salt-Induced Renal Injury in Stroke-Prone Spontaneously Hypertensive Rat

Reza

Ngarashi

Koike

et al. 2019

BioMed Research International

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The stroke-prone spontaneously hypertensive rat (SHRSP) suffers from severe hypertension and hypertensive organ damage such as cerebral stroke and kidney injury under salt-loading. By a quantitative trait locus (QTL) analysis between SHRSP and SHR (the stroke-resistant parental strain of SHRSP), two major QTLs for stroke susceptibility were identified on chromosomes 1 and 18 of SHRSP, which were confirmed in congenic strains constructed between SHRSP and SHR. As the progression of renal dysfunction was suggested to be one of the key factors inducing stroke in SHRSP, we examined effects of the stroke-related QTLs on kidney injury using two congenic strains harboring either of SHRSP-derived fragments of chromosomes 1 and 18 in the SHR genome. The congenic strains were challenged with 1% NaCl solution for 4 weeks; measurement of systolic blood pressure and urinary isoprostane level (a marker for oxidative stress) and evaluation of renal injury by quantification of genetic marker expression and histological examination were performed. We found that the congenic rats with SHRSP-derived fragment of chromosome 18 showed more severe renal damage with higher expression of Col1α-1 (a genetic marker for renal fibrosis) and higher urinary isoprostane level. In contrast, the fragment of chromosome 1 from SHRSP did not give such effects on SHR. Blood pressure was not greater in either of the congenic strains when compared with SHR. We concluded that the QTL region on chromosome 18 might deteriorate salt-induced renal injury in SHR through a blood pressure-independent mechanism.

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Further dissection of QTLs for salt-induced stroke and identification of candidate genes in the stroke-prone spontaneously hypertensive rat

Cited by 10 publications

References 29 publications

The protective and pathogenic roles of CXCL17 in human health and disease: Potential in respiratory medicine

The protective and pathogenic roles of CXCL17 in human health and disease: Potential in respiratory medicine

A 3-Mbp fragment on rat chromosome 1 affects susceptibility both to stroke and kidney injury under salt loading in the stroke-prone spontaneously hypertensive rat: a genetic approach using multiple congenic strains

Evaluation of Pathological Association between Stroke-Related QTL and Salt-Induced Renal Injury in Stroke-Prone Spontaneously Hypertensive Rat

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