Novel localization of folate transport systems in the murine central nervous system

Sangha, Vishal; Hoque, Md. Tozammel; Henderson, Jeffrey T.; Bendayan, Reina

doi:10.1186/s12987-022-00391-3

Cited by 16 publications

(16 citation statements)

References 59 publications

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“…A previous in vitro study examined the transport kinetics of folate in rat inner BRB model and identified RFC1 as the primary responsible transporter for folate by examining RFC1 at the mRNA level [ 45 ]. Besides, a recent study characterized the localization of folate transporters, hence RFC1 expression at CNS barriers in detail focusing especially on BBB cells including the endothelial cells; however, this study explored neither the retina nor pericytes [ 46 ]. So, our study offers a recognition for the roles of RFC1 protein in the CNS and deepens our understanding of other critical functions as well as novel treatment strategies for brain disorders.…”

Section: Discussionmentioning

confidence: 99%

Reduced folate carrier 1 is present in retinal microvessels and crucial for the inner blood retinal barrier integrity

Gürler

Belder

Beker

et al. 2023

Fluids Barriers CNS

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Background Reduced folate carrier 1 (RFC1; SLC19a1) is the main responsible transporter for the B9 family of vitamins named folates, which are essential for normal tissue growth and development. While folate deficiency resulted in retinal vasculopathy, the expression and the role of RFC1 in blood-retinal barrier (BRB) are not well known. Methods We used whole mount retinas and trypsin digested microvessel samples of adult mice. To knockdown RFC1, we delivered RFC1-targeted short interfering RNA (RFC1-siRNA) intravitreally; while, to upregulate RFC1 we delivered lentiviral vector overexpressing RFC1. Retinal ischemia was induced 1-h by applying FeCl3 to central retinal artery. We used RT-qPCR and Western blotting to determine RFC1. Endothelium (CD31), pericytes (PDGFR-beta, CD13, NG2), tight-junctions (Occludin, Claudin-5 and ZO-1), main basal membrane protein (Collagen-4), endogenous IgG and RFC1 were determined immunohistochemically. Results Our analyses on whole mount retinas and trypsin digested microvessel samples of adult mice revealed the presence of RFC1 in the inner BRB and colocalization with endothelial cells and pericytes. Knocking down RFC1 expression via siRNA delivery resulted in the disintegration of tight junction proteins and collagen-4 in twenty-four hours, which was accompanied by significant endogenous IgG extravasation. This indicated the impairment of BRB integrity after an abrupt RFC1 decrease. Furthermore, lentiviral vector-mediated RFC1 overexpression resulted in increased tight junction proteins and collagen-4, confirming the structural role of RFC1 in the inner BRB. Acute retinal ischemia decreased collagen-4 and occludin levels and led to an increase in RFC1. Besides, the pre-ischemic overexpression of RFC1 partially rescued collagen-4 and occludin levels which would be decreased after ischemia. Conclusion In conclusion, our study clarifies the presence of RFC1 protein in the inner BRB, which has recently been defined as hypoxia–immune-related gene in other tissues and offers a novel perspective of retinal RFC1. Hence, other than being a folate carrier, RFC1 is an acute regulator of the inner BRB in healthy and ischemic retinas.

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Section: Discussionmentioning

confidence: 99%

Reduced folate carrier 1 is present in retinal microvessels and crucial for the inner blood retinal barrier integrity

Gürler

Belder

Beker

et al. 2023

Fluids Barriers CNS

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“…RFC1 expression at the protein level in endothelial cells and pericytes of retina has never been studied before, despite its consistent detection in transcripts of microvascular mural cells (pericytes and vascular smooth muscle cells) of the brain (39). Recently, a study characterized the localization of folate transporters, hence RFC1 expression at CNS barriers in detail focusing especially on BBB cells including the endothelial cells; however, this study explored neither the retina nor pericytes (40). So, our study bears another focus, and offers a recognition for the roles of RFC1 in the CNS and deepens our understanding of other critical functions as well as novel treatment strategies for brain disorders.…”

Section: Discussionmentioning

confidence: 99%

Reduced Folate Carrier 1 Is Present in Retinal Microvessels and Crucial for the Inner Blood Retinal Barrier Integrity

Gürler

Uruk

Sever-Bahcekapili

et al. 2022

Preprint

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The inner blood-retina barrier (BRB) resembles the blood-brain barrier (BBB) and is comprised of a single layer endothelium sealed with tight junctions whose abluminal surface is ensheathed by pericytes. The inner BRB is essential for providing a constant and controlled flow of nutrients and molecules to meet metabolic needs. Accordingly, the inner BRB harbors numerous carriers providing the exchange of molecules between blood and retina. One of these carriers is Reduced Folate Carrier 1 (RFC1), which functions as a folate transporter, and has been one of the most consistently detected genes in cerebral pericytes in a recent meta-analysis. The presence of RFC1 protein and its functions in retinal pericytes and microvessels have been overlooked so far despite the similarities between retinal and cerebral microcirculation. In this report, our purposes were to assess the presence of RFC1 protein in retinal microvessels and surrounding pericytes, and modify to increase or decrease RFC1 levels to explore its roles in healthy and ischemic retinal microvessels. Our analyses on whole mount retinas, and trypsin digest preparations from adult Swiss albino mice with concomitant pericyte and endothelial cell markers have shown the presence of RFC1 protein in the inner BRB and colocalization with pericytes. In vivo modifications of RFC1 expression levels were accomplished by intravitreal delivery of genetic and pharmacological agents. Knocking down RFC1 expression via custom-designed short interfering RNA (siRNA) resulted in microvascular dysfunction which was presented by the disintegration of tight junction proteins and the main basal membrane protein collagen-4. This was accompanied by extensive endogenous IgG extravasation suggesting impairment in the barrier functions. On the other hand, delivering RFC1 expressing lentiviral vector to overexpress RFC1 in the retina induced immunosignal increase in tight junction proteins and collagen-4 confirming the role of RFC1 in the inner BRB functions. Administration of methotrexate (MTX), the pharmacological competitive inhibitor of folate, resulted in increased levels of RFC1. In retinal ischemia models, one-hour retinal ischemia increased RFC1 levels and decreased collagen-4 and occludin levels. These effects could be partially reversed with pre-treatment by RFC1 expressing lentiviral vector. All these indicate the importance of RFC1 levels in the pathophysiology of retinal ischemia, a prevalent cause of blindness worldwide. In conclusion, our study clarifies the presence of RFC1 in inner BRB and offers a novel perspective on RFC1, other than being a folate carrier, as a regulator of inner BRB in healthy and ischemic retinas.

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“…Some organic anionic and cationic drug transporters were only expressed in the former. Sangha et al [ 84 ] have found two important folate transporters, the reduced folate-carrier and the proton-coupled folate transporter, are present at the blood-arachnoid barrier.…”

Section: Elements Of the Blood-csf Barrier And The Csf And Glymphatic...mentioning

confidence: 99%

A year in review: brain barriers and brain fluids research in 2022

Keep

Jones

Hamilton

et al. 2023

Fluids Barriers CNS

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This aim of this editorial is to highlight progress made in brain barrier and brain fluid research in 2022. It covers studies on the blood-brain, blood-retina and blood-CSF barriers (choroid plexus and meninges), signaling within the neurovascular unit and elements of the brain fluid systems. It further discusses how brain barriers and brain fluid systems are impacted in CNS diseases, their role in disease progression and progress being made in treating such diseases.

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Novel localization of folate transport systems in the murine central nervous system

Cited by 16 publications

References 59 publications

Reduced folate carrier 1 is present in retinal microvessels and crucial for the inner blood retinal barrier integrity

Reduced folate carrier 1 is present in retinal microvessels and crucial for the inner blood retinal barrier integrity

Reduced Folate Carrier 1 Is Present in Retinal Microvessels and Crucial for the Inner Blood Retinal Barrier Integrity

A year in review: brain barriers and brain fluids research in 2022

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