Nikkilina R. Crouse scite author profile

The primary molecules for mediating the innate immune response are the Toll‐like family of receptors (TLRs). Recent work has established that amyloid‐beta (Aβ) fibrils, the primary components of senile plaques in Alzheimer’s disease (AD), can interact with the TLR2/4 accessory protein CD14. Using antibody neutralization assays and tumor necrosis factor alpha release in the human monocytic THP‐1 cell line, we determined that both TLR2 and TLR4 mediated an inflammatory response to aggregated Aβ(1–42). This was in contrast to exclusive TLR ligands lipopolysaccharide (LPS) (TLR4) and tripalmitoyl cysteinyl seryl tetralysine (Pam3CSK4) (TLR2). Atomic force microscopy imaging showed a fibrillar morphology for the proinflammatory Aβ(1–42) species. Pre‐treatment of the cells with 10 μg/mL of a TLR2‐specific antibody blocked ∼50% of the cell response to fibrillar Aβ(1–42), completely blocked the Pam3CSK4 response, and had no effect on the LPS‐induced response. A TLR4‐specific antibody (10 μg/mL) blocked ∼35% of the cell response to fibrillar Aβ(1–42), completely blocked the LPS response, and had no effect on the Pam3CSK4 response. Polymyxin B abolished the LPS response with no effect on Aβ(1–42) ruling out bacterial contamination of the Aβ samples. Combination antibody pre‐treatments indicated that neutralization of TLR2, TLR4, and CD14 together was much more effective at blocking the Aβ(1–42) response than the antibodies used alone. These data demonstrate that fibrillar Aβ(1–42) can trigger the innate immune response and that both TLR2 and TLR4 mediate Aβ‐induced tumor necrosis factor alpha production in a human monocytic cell line.

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Neurofibromatosis-1 regulates mTOR-mediated astrocyte growth and glioma formation in a TSC/Rheb-independent manner

Banerjee

Crouse

Emnett

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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Converging evidence from the analysis of human brain tumors and genetically engineered mice has revealed that the mammalian target of rapamycin (mTOR) pathway is a central regulator of glial and glioma cell growth. In this regard, mutational inactivation of neurofibromatosis-1 (NF1), tuberous sclerosis complex (TSC), and PTEN genes is associated with glioma formation, such that pharmacologic inhibition of mTOR signaling results in attenuated tumor growth. This shared dependence on mTOR suggests that PTEN and NF1 (neurofibromin) glial growth regulation requires TSC/Rheb (Ras homolog enriched in brain) control of mTOR function. In this report, we use a combination of genetic silencing in vitro and conditional mouse transgenesis approaches in vivo to demonstrate that neurofibromin regulates astrocyte cell growth and glioma formation in a TSC/Rheb-independent fashion. First, we show that Nf1 or Pten inactivation, but not Tsc1 loss or Rheb overexpression, increases astrocyte cell growth in vitro. Second, Nf1 -deficient increased mTOR signaling and astrocyte hyperproliferation is unaffected by Rheb shRNA silencing. Third, conditional Tsc1 inactivation or Rheb overexpression in glial progenitors of Nf1 +/− mice does not lead to glioma formation. Collectively, these findings establish TSC/Rheb-independent mechanisms for mTOR-dependent glial cell growth control and gliomagenesis relevant to the design of therapies for individuals with glioma.

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Oligomeric amyloid-β(1–42) induces THP-1 human monocyte adhesion and maturation

et al. 2009

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Rethinking Pediatric Gliomas as Developmental Brain Abnormalities

Crouse¹,

Dahiya²,

Gutmann³

2011

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