Progranulin deficiency promotes neuroinflammation and neuron loss following toxin-induced injury
Lauren Herl Martens, … , Eric J. Huang, Robert V. Farese Jr.
Lauren Herl Martens, … , Eric J. Huang, Robert V. Farese Jr.
Published October 8, 2012
Citation Information: J Clin Invest. 2012;122(11):3955-3959. https://doi.org/10.1172/JCI63113.
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Brief Report Neuroscience

Progranulin deficiency promotes neuroinflammation and neuron loss following toxin-induced injury

Abstract

Progranulin (PGRN) is a widely expressed secreted protein that is linked to inflammation. In humans, PGRN haploinsufficiency is a major inherited cause of frontotemporal dementia (FTD), but how PGRN deficiency causes neurodegeneration is unknown. Here we show that loss of PGRN results in increased neuron loss in response to injury in the CNS. When exposed acutely to 1-methyl-4-(2′-methylphenyl)-1,2,3,6-tetrahydrophine (MPTP), mice lacking PGRN (Grn–/–) showed more neuron loss and increased microgliosis compared with wild-type mice. The exacerbated neuron loss was due not to selective vulnerability of Grn–/– neurons to MPTP, but rather to an increased microglial inflammatory response. Consistent with this, conditional mutants lacking PGRN in microglia exhibited MPTP-induced phenotypes similar to Grn–/– mice. Selective depletion of PGRN from microglia in mixed cortical cultures resulted in increased death of wild-type neurons in the absence of injury. Furthermore, Grn–/– microglia treated with LPS/IFN-γ exhibited an amplified inflammatory response, and conditioned media from these microglia promoted death of cultured neurons. Our results indicate that PGRN deficiency leads to dysregulated microglial activation and thereby contributes to increased neuron loss with injury. These findings suggest that PGRN deficiency may cause increased neuron loss in other forms of CNS injury accompanied by neuroinflammation.

Authors

Lauren Herl Martens, Jiasheng Zhang, Sami J. Barmada, Ping Zhou, Sherry Kamiya, Binggui Sun, Sang-Won Min, Li Gan, Steven Finkbeiner, Eric J. Huang, Robert V. Farese Jr.

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Figure 1

Increased neuron death and microglial activation caused by PGRN deficiency in a model of CNS injury.

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Increased neuron death and microglial activation caused by PGRN deficien...
(A) Representative SNpc sections showing decreased numbers of TH-positive neurons and increased numbers of IBA1-positive microglia following MPTP exposure in PGRN-deficient mice. Dashed lines indicate SNpc. Scale bars: 500 μm. (B) Quantification of TH-positive neurons and IBA1-positive microglia in the SNpc in the global PGRN-deficient mouse model. Numbers denote n per group. *P < 0.05, MPTP versus PBS; P < 0.05, Grn+/+ MPTP versus Grn–/– MPTP; ††P < 0.01, Grn–/– MPTP versus either Grn+/+ or Grn+/– MPTP. (C) Quantification of TH-positive and IBA1-positive microglia in the SNpc in the microglia-targeted PGRN-deficient mouse model. Numbers denote n per group. *P < 0.05, MPTP versus PBS; P < 0.05, Cd11b-Cre;Grnfl/fl MPTP versus Cd11b-Cre+;Grnfl/fl MPTP. (D) Representative confocal images showing that MPTP treatment decreased the number of TH-positive neurons (red) and increased the numbers of activated microglia (green) in the SNpc of Grn–/– mice. Arrows indicate activated microglia. Scale bar: 20 μm.