Modulating inflammatory monocytes with a unique microRNA gene signature ameliorates murine ALS
Oleg Butovsky, … , Merit E. Cudkowicz, Howard L. Weiner
Oleg Butovsky, … , Merit E. Cudkowicz, Howard L. Weiner
Published August 6, 2012
Citation Information: J Clin Invest. 2012;122(9):3063-3087. https://doi.org/10.1172/JCI62636.
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Modulating inflammatory monocytes with a unique microRNA gene signature ameliorates murine ALS

Abstract

Amyotrophic lateral sclerosis (ALS) is a progressive disease associated with neuronal cell death that is thought to involve aberrant immune responses. Here we investigated the role of innate immunity in a mouse model of ALS. We found that inflammatory monocytes were activated and that their progressive recruitment to the spinal cord, but not brain, correlated with neuronal loss. We also found a decrease in resident microglia in the spinal cord with disease progression. Prior to disease onset, splenic Ly6Chi monocytes expressed a polarized macrophage phenotype (M1 signature), which included increased levels of chemokine receptor CCR2. As disease onset neared, microglia expressed increased CCL2 and other chemotaxis-associated molecules, which led to the recruitment of monocytes to the CNS by spinal cord–derived microglia. Treatment with anti-Ly6C mAb modulated the Ly6Chi monocyte cytokine profile, reduced monocyte recruitment to the spinal cord, diminished neuronal loss, and extended survival. In humans with ALS, the analogous monocytes (CD14+CD16–) exhibited an ALS-specific microRNA inflammatory signature similar to that observed in the ALS mouse model, linking the animal model and the human disease. Thus, the profile of monocytes in ALS patients may serve as a biomarker for disease stage or progression. Our results suggest that recruitment of inflammatory monocytes plays an important role in disease progression and that modulation of these cells is a potential therapeutic approach.

Authors

Oleg Butovsky, Shafiuddin Siddiqui, Galina Gabriely, Amanda J. Lanser, Ben Dake, Gopal Murugaiyan, Camille E. Doykan, Pauline M. Wu, Reddy R. Gali, Lakshmanan K. Iyer, Robert Lawson, James Berry, Anna M. Krichevsky, Merit E. Cudkowicz, Howard L. Weiner

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Figure 10

Reciprocal expression of CD39 and Ly6C in CNS-resident microglia and bone marrow–derived monocytes in SOD1 chimeric mice.

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Reciprocal expression of CD39 and Ly6C in CNS-resident microglia and bon...
SOD1G93A and non-Tg littermates were transplanted with syngeneic bone marrow cells from CX3CR1GFP/+ mice. Spinal cords were analyzed at presymptomatic (60 days), disease onset, and end stages. (A) GFP+ recruited IBA1+ monocytes in lumbar spinal cord of non-Tg– and SOD1-Cx3cr1GFP+/– mice. Scale bar: 500 μm. (B) Confocal images of GFP+ recruited monocytes (IBA1+GFP+; white arrowheads) and resident microglia (IBA1+GFP; yellow arrowhead) in ventral horns of non-Tg– and SOD1-Cx3cr1 chimeric mice at 120 days of age. Representative confocal images (5–6 mice per group). Scale bars: 50 μm. (C) Quantitative analysis showing the kinetics of bone marrow–derived CX3CR1GFP/+ monocytes recruited into spinal cords during disease at 90, 120, and 145 days of age in SOD1-Cx3cr1GFP+/– chimeric mice. Data represent mean ± SEM (5–6 mice per group). ***P < 0.001, 1-way ANOVA followed by Dunnett’s multiple-comparison post hoc test. (D) FACS analysis of CD39 and Ly6C expression in spinal cord–derived populations of microglia (MG) and peripheral monocytes (PMs) isolated from non-Tg– and SOD1-chimera mice at 120 days of age. Note: CD11b+GFP+ gated peripheral monocytes express Ly6Chi and do not express CD39, whereas all resident microglia express CD39 and are negative for Ly6Chi. (E) Expansion of the recruited Ly6ChiCX3CR-GFPlo monocyte subset in the spinal cord of SOD1 mice during disease progression. Numbers in D and E represent the percentage of CD11b-gated cells in each quadrant. Each panel represents a pool of 4–5 mice.