TY - JOUR
T1 - Increased Circulating Chemokines and Macrophage Recruitment in Growing Vestibular Schwannomas
AU - Hannan, Cathal John
AU - Lewis, Daniel
AU - O'Leary, Claire
AU - Waqar, Mueez
AU - Brough, David
AU - Couper, Kevin N
AU - Dyer, Douglas P
AU - Vail, Andy
AU - Heal, Calvin
AU - Macarthur, Joshua
AU - Cooper, Christopher
AU - Hammerbeck-Ward, Charlotte
AU - Evans, D Gareth
AU - Rutherford, Scott A
AU - Lloyd, Simon K
AU - Mackenzie Freeman, Simon Richard
AU - Coope, David John
AU - King, Andrew T
AU - Pathmanaban, Omar Nathan
N1 - Copyright © Congress of Neurological Surgeons 2022. All rights reserved.
PY - 2023/3/1
Y1 - 2023/3/1
N2 - BACKGROUND: There is evidence that macrophage infiltration in the tumor microenvironment promotes vestibular schwannoma (VS) growth. Efficacy of bevacizumab in NF2-associated VS demonstrates the value of therapies targeting the microvascular tumor microenvironment, and tumor-associated macrophages (TAMs) may represent another druggable target. OBJECTIVE: To characterize the relationship between growth, TAM infiltration, and circulating monocyte chemokines in a large cohort of patients with VS. METHODS: Immunostaining for Iba1 (macrophages), CD31 (endothelium), and fibrinogen (permeability) was performed on 101 growing and 19 static sporadic VS. The concentrations of monocyte-specific chemokines were measured in the plasma of 50 patients with growing VS and 25 patients with static VS. RESULTS: The Iba1 + cell count was significantly higher in growing as compared with static VS (592 vs 226/×20 HPF, P =<0.001). Similarly, the CD31 + % surface area was higher in growing VS (2.19% vs 1.32%, P = .01). There was a positive correlation between TAM infiltration and VS growth rate, which persisted after controlling for the effect of tumor volume (aR2 = 0.263, P =<0.001). The plasma concentrations of several monocytic chemokines were higher in patients with growing rather than static VS. CONCLUSION: There is a strong positive correlation between TAM infiltration and volumetric growth of VS, and this relationship is independent of tumor size. There is a colinear relationship between TAM infiltration and tumor vascularity, implying that inflammation and angiogenesis are interlinked in VS. Chemokines known to induce monocyte chemotaxis are found in higher concentrations in patients with growing VS, suggestive of a potential pathophysiological mechanism.
AB - BACKGROUND: There is evidence that macrophage infiltration in the tumor microenvironment promotes vestibular schwannoma (VS) growth. Efficacy of bevacizumab in NF2-associated VS demonstrates the value of therapies targeting the microvascular tumor microenvironment, and tumor-associated macrophages (TAMs) may represent another druggable target. OBJECTIVE: To characterize the relationship between growth, TAM infiltration, and circulating monocyte chemokines in a large cohort of patients with VS. METHODS: Immunostaining for Iba1 (macrophages), CD31 (endothelium), and fibrinogen (permeability) was performed on 101 growing and 19 static sporadic VS. The concentrations of monocyte-specific chemokines were measured in the plasma of 50 patients with growing VS and 25 patients with static VS. RESULTS: The Iba1 + cell count was significantly higher in growing as compared with static VS (592 vs 226/×20 HPF, P =<0.001). Similarly, the CD31 + % surface area was higher in growing VS (2.19% vs 1.32%, P = .01). There was a positive correlation between TAM infiltration and VS growth rate, which persisted after controlling for the effect of tumor volume (aR2 = 0.263, P =<0.001). The plasma concentrations of several monocytic chemokines were higher in patients with growing rather than static VS. CONCLUSION: There is a strong positive correlation between TAM infiltration and volumetric growth of VS, and this relationship is independent of tumor size. There is a colinear relationship between TAM infiltration and tumor vascularity, implying that inflammation and angiogenesis are interlinked in VS. Chemokines known to induce monocyte chemotaxis are found in higher concentrations in patients with growing VS, suggestive of a potential pathophysiological mechanism.
KW - Humans
KW - Neuroma, Acoustic/pathology
KW - Chemokines/metabolism
KW - Inflammation/metabolism
KW - Macrophages/metabolism
KW - Tumor Microenvironment
U2 - 10.1227/neu.0000000000002252
DO - 10.1227/neu.0000000000002252
M3 - Article
C2 - 36729787
SN - 0148-396X
VL - 92
SP - 581
EP - 589
JO - Neurosurgery
JF - Neurosurgery
IS - 3
ER -