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- Title
- The Actin-Severing Protein Cofilin Is Downstream Of Neuregulin Signaling, Is Regulated By The Tumor Suppressor Merlin, And Is Essential For Schwann Cell Myelination.
- Creator
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Sparrow, Nicklaus, Fernandez-Valle, Cristina, Lambert, Stephen, Ebert, Steven, Altomare, Deborah, University of Central Florida
- Abstract / Description
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Myelination is a complex process requiring coordination of directional motility and an increase in Schwann cell (SC) size to generate a multi-lamellar myelin sheath. Regulation of actin dynamics during myelination is poorly understood. However, it is known that myelin thickness is related to the abundance of neuregulin1-type III (NRG) expressed on the axon surface. NRG binding to ErbB2/3 receptors on the Schwann cell surface initiates signaling cascades necessary for myelination. We identify...
Show moreMyelination is a complex process requiring coordination of directional motility and an increase in Schwann cell (SC) size to generate a multi-lamellar myelin sheath. Regulation of actin dynamics during myelination is poorly understood. However, it is known that myelin thickness is related to the abundance of neuregulin1-type III (NRG) expressed on the axon surface. NRG binding to ErbB2/3 receptors on the Schwann cell surface initiates signaling cascades necessary for myelination. We identify cofilin1, an actin depolymerizing and severing protein, as a downstream target of NRG-ErbB2/3 signaling in rat SC. A five minute exposure of SCs to NRG triggers phosphorylation of ErbB2 with concomitant dephosphorylation, and activation, of cofilin, and its upstream regulators, LIM domain kinase (LIMK) and Slingshot-1 phosphatase (SSH). This leads to cofilin activation and recruitment to the leading edge of the SC plasma membrane. These changes are associated with rapid plasma membrane expansion yielding a 35(-)50% increase in SC size within 30 minutes of NRG1 exposure. Cofilin1-deficient SCs increase phosphorylation of ErbB2, ERK, focal adhesion kinase, and paxillin in response to NRG, but fail to increase in size possibly due to stabilization of unusually long focal adhesions. Cofilin1-deficient SCs co-cultured with sensory neurons fail to elaborate myelin. Ultrastructural analysis reveals that they unsuccessfully segregate or engage axons and form only patchy basal lamina. After 48 hours of co-culturing with neurons, cofilin-deficient SCs fail to align and elongate on axons and often adhere to the underlying substrate rather than to axons. We show that the Neurofibromatosis Type II (NF2) tumor suppressor, merlin, is an upstream regulator of cofilin1, and that merlin knockdown in Schwann cells inhibits their elaboration of normal myelin sheaths in vitro. Merlin-deficient SCs form shorter myelin segments in DRG neuron/SC co-cultures. Merlin-deficient Schwann cells have increased levels of both active Rac (Rac-GTP) and F-actin indicative of a stable actin cytoskeleton. Surprisingly merlin-deficient Schwann cells fail to dephosphorylate and activate cofilin1 in response to NRG stimulation. Inhibition of LIMK restores the ability of merlin-deficient SCs to activate cofilin in response to NRG. In developing rat sciatic nerve, merlin becomes hyper-phosphorylated at S518 during the time of peak myelin formation. During this time, cofilin is localized to the inner mesaxon, and subsequently to Schmidt-Lanterman incisures in mature myelin. This study: 1) identifies cofilin and its upstream regulators, LIMK and SSH, as end targets of a NRG-ErbB2/3 signaling pathway in Schwann cells, 2) demonstrates that cofilin modulates actin dynamics in Schwann cells allowing for motility needed to effectively engage and myelinate axons, 3) shows that merlin regulates NRG-ErbB2/3-cofilin-actin signaling during SC myelination to determine the myelin segment length.
Show less - Date Issued
- 2017
- Identifier
- CFE0006664, ucf:51217
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFE0006664
- Title
- THE PRESENCE OF PAIN RELATED CYTOKINES AND CHEMOKINES IN SCHWANNOMAS AND THEIR POTENTIAL ASSOCIATION WITH CHRONIC PAIN IN SCHWANNOMATOSIS.
- Creator
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Nagamoto, Jackson D, Fernandez-Valle, Cristina, University of Central Florida
- Abstract / Description
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Schwannomatosis (SWN) is a genetic disorder that predisposes affected individuals to develop multiple Schwannomas anywhere in the peripheral nervous system. This can be due to a mutation in the LZTR1 or SMARCB1 genes on chromosome 22. SWN has the defining clinical symptom of chronic pain and a lack of vestibular schwannomas, which sets it apart from other, related disorders such as Neurofibromatosis Type II (NF2). Currently, it is unknown what causes the chronic pain of SWN patients but it is...
Show moreSchwannomatosis (SWN) is a genetic disorder that predisposes affected individuals to develop multiple Schwannomas anywhere in the peripheral nervous system. This can be due to a mutation in the LZTR1 or SMARCB1 genes on chromosome 22. SWN has the defining clinical symptom of chronic pain and a lack of vestibular schwannomas, which sets it apart from other, related disorders such as Neurofibromatosis Type II (NF2). Currently, it is unknown what causes the chronic pain of SWN patients but it is hypothesized that cytokines may have promote the neuropathic pain experienced by patients. This study investigates the presence of the chemokine CCL2 and the cytokine IL6 in human SWN schwannomas and non-SWN schwannomas to determine if there is a difference in the presence of these cytokines between the two tumor types. It was demonstrated that all of the SWN schwannomas expressed both CCL2 and IL6 whereas the non-SWN schwannomas expressed only one or the other protein if either. These results indicate that the presence of these cytokines within the SWN schwannomas is different from non-SWN schwannomas and could be a potential contributing factor in the occurrence of neuropathic pain experienced by SWN which is part of the differential diagnosis for NF2 and SWN.
Show less - Date Issued
- 2019
- Identifier
- CFH2000525, ucf:45627
- Format
- Document (PDF)
- PURL
- http://purl.flvc.org/ucf/fd/CFH2000525