Susan Hutchison scite author profile

Experimental models of atherosclerosis suggest that recruitment of monocytes into plaques drives the progression of this chronic inflammatory condition. Cholesterol-lowering therapy leads to plaque stabilization or regression in human atherosclerosis, characterized by reduced macrophage content, but the mechanisms that underlie this reduction are incompletely understood. Mice lacking the gene Apoe (Apoe -/-mice) have high levels of cholesterol and spontaneously develop atherosclerotic lesions. Here, we treated Apoe -/-mice with apoEencoding adenoviral vectors that induce plaque regression, and investigated whether macrophage removal from plaques during this regression resulted from quantitative alterations in the ability of monocytes to either enter or exit plaques. Within 2 days after apoE complementation, plasma cholesterol was normalized to wild-type levels, and HDL levels were increased 4-fold. Oil red O staining and quantitative mass spectroscopy revealed that esterified cholesterol content was markedly reduced. Plaque macrophage content decreased gradually and was 72% lower than baseline 4 weeks after apoE complementation. Importantly, this reduction in macrophages did not involve migratory egress from plaques or CCR7, a mediator of leukocyte emigration. Instead, marked suppression of monocyte recruitment coupled with a stable rate of apoptosis accounted for loss of plaque macrophages. These data suggest that therapies to inhibit monocyte recruitment to plaques may constitute a more viable strategy to reduce plaque macrophage burden than attempts to promote migratory egress.

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MicroRNA-33–dependent regulation of macrophage metabolism directs immune cell polarization in atherosclerosis

Ouimet¹,

Ediriweera²,

Gundra³

et al. 2015

330

242

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Netrin-1 promotes adipose tissue macrophage retention and insulin resistance in obesity

Ramkhelawon

Hennessy

Ménager

et al. 2014

Nat Med

219

204

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During obesity, macrophage accumulation in adipose tissue propagates the chronic inflammation and insulin resistance associated with type 2 diabetes. The factors that regulate the accrual of macrophages in adipose are not well understood. Here we show that the neuroimmune guidance cue netrin-1 is highly expressed in obese, but not lean adipose tissue of humans and mice, where it directs the retention of macrophages. Expression of netrin-1 is induced in macrophages by the saturated fatty acid palmitate, and acts via its receptor Unc5b to block macrophage migration. In a mouse model of diet-induced obesity, we show that adipose tissue macrophages exhibit reduced migratory capacity, which can be restored by blocking netrin-1. Furthermore, hematopoietic deletion of Ntn1 facilitates adipose tissue macrophage emigration, reduces inflammation, and improves insulin sensitivity. Collectively, these findings identify netrin-1 as a macrophage retention signal in adipose tissue during obesity, which promotes chronic inflammation and insulin resistance.

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Macrophage-derived netrin-1 promotes abdominal aortic aneurysm formation by activating MMP3 in vascular smooth muscle cells

et al. 2018

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Abdominal aortic aneurysms (AAA) are characterized by extensive extracellular matrix (ECM) fragmentation and inflammation. However, the mechanisms by which these events are coupled thereby fueling focal vascular damage are undefined. Here we report through single-cell RNA-sequencing of diseased aorta that the neuronal guidance cue netrin-1 can act at the interface of macrophage-driven injury and ECM degradation. Netrin-1 expression peaks in human and murine aneurysmal macrophages. Targeted deletion of netrin-1 in macrophages protects mice from developing AAA. Through its receptor neogenin-1, netrin-1 induces a robust intracellular calcium flux necessary for the transcriptional regulation and persistent catalytic activation of matrix metalloproteinase-3 (MMP3) by vascular smooth muscle cells. Deficiency in MMP3 reduces ECM damage and the susceptibility of mice to develop AAA. Here, we establish netrin-1 as a major signal that mediates the dynamic crosstalk between inflammation and chronic erosion of the ECM in AAA.

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Purification of individual components of the neurofilament triplet: filament assembly from the 70000-dalton subunit

Liem¹,

Hutchison²

1982

Biochemistry

208

108

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Mammalian neurofilaments are composed of three subunit polypeptides with approximate molecular weights of 200 000, 150 000, and 70 000 (P200, P150, and P70). These subunits were separated by ion-exchange chromatography in the presence of 8 M urea. The P200 polypeptide was differentially eluted on a diethylaminoethyl (DEAE) column. The P70 and P150 polypeptides obtained after the DEAE column were separable on a hydroxylapatite column. Under neurofilament assembly conditions, only the P70 polypeptide was able to reassemble into an intermediate filament in the absence of the other two polypeptides. The P150 and P70 polypeptides copolymerized into an intermediate filament, only if P70 was present. These results suggest that the P70 polypeptide forms the core of the filament and the other two polypeptides are tightly associated accessory proteins.

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Susan Hutchison

Suppressed monocyte recruitment drives macrophage removal from atherosclerotic plaques of Apoe–/– mice during disease regression

MicroRNA-33–dependent regulation of macrophage metabolism directs immune cell polarization in atherosclerosis

Netrin-1 promotes adipose tissue macrophage retention and insulin resistance in obesity

Macrophage-derived netrin-1 promotes abdominal aortic aneurysm formation by activating MMP3 in vascular smooth muscle cells

Purification of individual components of the neurofilament triplet: filament assembly from the 70000-dalton subunit

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