Rengang Wang scite author profile

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting predominantly motor neurons. Recent studies suggest that the disease progression of ALS is noncell-autonomous, although the interaction between neurons and glial cells in different disease stages is not entirely clear. Here, we demonstrate that the interferon (IFN) signaling pathway is activated in human SOD1(G93A) transgenic mice, a rodent model of ALS. IFN-stimulated genes (ISGs) increased in the spinal cord of SOD1(G93A) mice at a pre-symptomatic age. In addition, the up-regulated ISGs, and most likely their transcriptional activators, were found specifically in astrocytes surrounding motor neurons, suggesting that IFN signaling in astrocytes was triggered by specific pathologic changes in motor neurons. Furthermore, induction of ISGs in cultured astrocytes was highly sensitive to IFN, especially type I IFN. ISGs in astrocytes were activated specifically by endoplasmic reticulum stress-induced neurodegeneration in vitro, implicating a similar process in the pre-symptomatic stage of SOD1 mutant mice. Finally, reduction or deletion of IFNα receptor 1 inhibited IFN signaling and increased the life-span of SOD1(G93A) mice. Thus, the activation of IFN signaling pathways represents an early "dialogue" between motor neurons and astrocytes in response to pathological changes in ALS.

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Biallelic loss of human CTNNA2, encoding αN-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration

Schaffer

Breuss

Çağlayan

et al. 2018

Nat Genet

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Neuronal migration defects, including pachygyria, are among the most severe developmental brain defects in humans. Here, we identify biallelic truncating mutations in CTNNA2, encoding αN-catenin, in patients with a distinct recessive form of pachygyria. CTNNA2 was expressed in human cerebral cortex, and its loss in neurons led to defects in neurite stability and migration. The αN-catenin paralog, αE-catenin, acts as a switch regulating the balance between β-catenin and Arp2/3 actin filament activities. Loss of αN-catenin did not affect β-catenin signaling, but recombinant αN-catenin interacted with purified actin and repressed ARP2/3 actin-branching activity. The actin-binding domain of αN-catenin or ARP2/3 inhibitors rescued the neuronal phenotype associated with CTNNA2 loss, suggesting ARP2/3 de-repression as a potential disease mechanism. Our findings identify CTNNA2 as the first catenin family member with biallelic mutations in humans, causing a new pachygyria syndrome linked to actin regulation, and uncover a key factor involved in ARP2/3 repression in neurons.

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Potent and Selective EphA4 Agonists for the Treatment of ALS

Kulinich

et al. 2017

Cell Chemical Biology

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Amyotrophic lateral sclerosis (ALS) is a progressive degenerative disease that affects motor neurons. Recent studies identified the receptor tyrosine kinase EphA4 as a disease-modifying gene that is critical for the progression of motor neuron degeneration. We report on the design and characterization of a family of EphA4 targeting agents that bind to its ligand binding domain with nanomolar affinity. The molecules exhibit excellent selectivity and display efficacy in a SOD1 mutant mouse model of ALS. Interestingly, the molecules appear to act as agonists for the receptor in certain surrogate cellular assays. While the exact mechanisms responsible for the therapeutic effect of the new agonists remain to be elucidated, we believe that the described agent represents both an invaluable pharmacological tool to further decipher the role of the EphA4 in ALS and potentially other human diseases, and a significant stepping stone for the development of novel treatments.

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Rengang Wang

Activation of interferon signaling pathways in spinal cord astrocytes from an ALS mouse model

Biallelic loss of human CTNNA2, encoding αN-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration

Potent and Selective EphA4 Agonists for the Treatment of ALS

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