Na+/H+ Exchanger 9 Regulates Iron Mobilization at the Blood-Brain Barrier in Response to Iron Starvation

Beydoun, Rami; Hamood, Mohamed A.; Zubieta, Daniela M. Gomez; Kondapalli, Kalyan C.

doi:10.1074/jbc.m116.769240

Cited by 33 publications

(51 citation statements)

References 58 publications

(79 reference statements)

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“…Cells were mounted onto slides using Prolong gold antifade reagent (Invitrogen). Immunostaining of human brain microvascular endothelial cells (BMVECs) in culture with RAW264.7 cells was conducted as described previously . Anti‐human von Willebrand factor antibody (DakoCytomation) was used as a marker for BMVECs.…”

Section: Methodsmentioning

confidence: 99%

“…The cells were then fixed for 20 minutes at room temperature with solution containing 4% paraformaldehyde and 4% sucrose in PBS, following previously published protocol. 10 Cells were mounted onto slides using Prolong gold antifade reagent (Invitrogen). Immunostaining of human brain microvascular endothelial cells (BMVECs) in culture with RAW264.7 cells was conducted as described previously.…”

Section: Indirect Immunofluorescencementioning

confidence: 99%

“…Immunostaining of human brain microvascular endothelial cells (BMVECs) in culture with RAW264.7 cells was conducted as described previously. 10 Anti-human von Willebrand factor antibody (DakoCytomation) was used as a marker for BMVECs. All slides were imaged using Lumascope-620 microscope (Etaluma).…”

Section: Indirect Immunofluorescencementioning

confidence: 99%

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A gain of function paradox: Targeted therapy for glioblastoma associated with abnormal NHE9 expression

Pall

Juratli

Guntur

et al. 2019

J Cellular Molecular Medi

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Glioblastoma (GBM) is the most frequent and inevitably lethal primary brain cancer in adults. It is recognized that the overexpression of the endosomal Na+/H+ exchanger NHE9 is a potent driver of GBM progression. Patients with NHE9 overexpression have a threefold lower median survival relative to GBM patients with normal NHE9 expression, using available treatment options. New treatment strategies tailored for this GBM subset are much needed. According to the prevailing model, NHE9 overexpression leads to an increase in plasma membrane density of epidermal growth factor receptors (EGFRs) which consequently enhances GBM cell proliferation and migration. However, this increase is not specific to EGFRs. In fact, the hallmark of NHE9 overexpression is a pan‐specific increase in plasma membrane receptors. Paradoxically, we report that this gain of function in NHE9 can be exploited to effectively target GBM cells for destruction. When exposed to gold nanoparticles, NHE9 overexpressing GBM cells accumulated drastically high amounts of gold via receptor‐mediated endocytosis, relative to control. Irradiation of these cells with near‐infrared light led to apoptotic tumour cell death. A major limitation for delivering therapeutics to GBM cells is the blood‐brain barrier (BBB). Here, we demonstrate that macrophages loaded with gold nanoparticles can cross the BBB, deliver the gold nanoparticles and effect the demise of GBM cells. In combination with receptor tyrosine kinase inhibition, we show this approach holds great promise for a new GBM‐targeted therapy.

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Section: Methodsmentioning

confidence: 99%

Section: Indirect Immunofluorescencementioning

confidence: 99%

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A gain of function paradox: Targeted therapy for glioblastoma associated with abnormal NHE9 expression

Pall

Juratli

Guntur

et al. 2019

J Cellular Molecular Medi

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“…These findings suggest that preservation of healthy endothelium can be an important therapeutic target Chakraborty et al 2016;Dalkara and Alarcon-Martinez 2015;Gocmez et al 2016;Giulia et al 2016;Katusic and Austin 2016;Kelleher and Soiza 2013;Li et al 2017;Pan et al 2016;van de Haar et al 2016;Velagapudi et al 2017;Wu et al 2016;Zhu et al 2016). In this regard, another important function of the cerebrovascular endothelium is the transcellular trafficking of iron from the blood into the brain interstitium (Belaidi and Bush 2016;Beydoun et al 2017;Kosman 2015a, 2015b;Pirpamer et al 2016;Simpson et al 2015). Brain iron homeostasis is increasingly reported (e.g., Belaidi and Bush 2016;Beydoun et al 2017) as a potential target for the development of drug therapies for aging-related disorders (Belaidi and Bush 2016;Beydoun et al 2017;McCarthy and Kosman 2015a;Pirpamer et al 2016;Simpson et al 2015).…”

Section: Targeting Senile Endothelium Brain Biometal (Fe Ca) Dyshommentioning

confidence: 99%

“…In this regard, another important function of the cerebrovascular endothelium is the transcellular trafficking of iron from the blood into the brain interstitium (Belaidi and Bush 2016;Beydoun et al 2017;Kosman 2015a, 2015b;Pirpamer et al 2016;Simpson et al 2015). Brain iron homeostasis is increasingly reported (e.g., Belaidi and Bush 2016;Beydoun et al 2017) as a potential target for the development of drug therapies for aging-related disorders (Belaidi and Bush 2016;Beydoun et al 2017;McCarthy and Kosman 2015a;Pirpamer et al 2016;Simpson et al 2015). Dysregulation of iron metabolism, associated with cellular damage and oxidative stress, is reported as a common event in several neurodegenerative disorders including Alzheimer's disease (Belaidi and Bush 2016;Beydoun et al 2017;McCarthy and Kosman 2015b;Simpson et al 2015).…”

Section: Targeting Senile Endothelium Brain Biometal (Fe Ca) Dyshommentioning

confidence: 99%

Nanotherapy for Alzheimer's disease and vascular dementia: Targeting senile endothelium

D'Arrigo

2018

Advances in Colloid and Interface Science

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Due to the complexity of Alzheimer's disease, multiple cellular types need to be targeted simultaneously in order for a given therapy to demonstrate any major effectiveness. Ultrasound-sensitive coated microbubbles (in a targeted lipid nanoemulsion) are available. Versatile small molecule drug(s) targeting multiple pathways of Alzheimer's disease pathogenesis are known. By incorporating such drug(s) into the targeted LCM/ND lipid nanoemulsion type, one obtains a multitasking combination therapeutic for translational medicine. This multitasking therapeutic targets cell-surface scavenger receptors (mainly SR-BI), making possible for various Alzheimer's-related cell types to be simultaneously searched out for localized drug treatment in vivo. Besides targeting cell-surface SR-BI, the proposed LCM/ND-nanoemulsion combination therapeutic(s) include a characteristic lipid-coated microbubble [LCM] subpopulation (i.e., a stable LCM suspension); such filmstabilized microbubbles are well known to substantially reduce the acoustic power levels needed for accomplishing temporary noninvasive (transcranial) ultrasound treatment, or sonoporation, if additionally desired for the Alzheimer's patient.

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Sodium hydrogen exchanger 9 NHE9 (SLC9A9) and its emerging roles in neuropsychiatric comorbidity

Patak

Faraone

Zhang‐James

2020

American J of Med Genetics Pt B

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Variations in SLC9A9 gene expression and protein function are associated with multiple human diseases, which range from Attention-deficit/hyperactivity disorder (ADHD) to glioblastoma multiforme. In an effort to determine the full spectrum of human disease associations with SLC9A9, we performed a systematic review of the literature. We also review SLC9A9's biochemistry, protein structure, and function, as well as its interacting partners with the goal of identifying mechanisms of disease and druggable targets. We report gaps in the literature regarding the genes function along with consistent trends in disease associations that can be used to further research into treating the respective diseases. We report that SLC9A9 has strong associations with neuropsychiatric diseases and various cancers. Interestingly, we find strong overlap in SLC9A9 disease associations and propose a novel role for SLC9A9 in neuropsychiatric comorbidity. In conclusion, SLC9A9 is a multifunctional protein that, through both its endosome regulatory function and its protein-protein interaction network, has the ability to modulate signaling axes, such as the PI3K pathway, among others.

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Na+/H+ Exchanger 9 Regulates Iron Mobilization at the Blood-Brain Barrier in Response to Iron Starvation

Cited by 33 publications

References 58 publications

A gain of function paradox: Targeted therapy for glioblastoma associated with abnormal NHE9 expression

A gain of function paradox: Targeted therapy for glioblastoma associated with abnormal NHE9 expression

Nanotherapy for Alzheimer's disease and vascular dementia: Targeting senile endothelium

Sodium hydrogen exchanger 9 NHE9 (SLC9A9) and its emerging roles in neuropsychiatric comorbidity

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