The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin

Anna Nölle; Andre Zeug; Jeroen Van bergeijk; Lars Tönges; Ralf Gerhard; Hella Brinkmann; Sarah Al rayes; Niko Hensel; Yvonne Schill; David Apkhazava; Sibylle Jablonka; Jana O'mer; Ratnesh Kumar srivastav; Anne Baasner; Paul Lingor; Brunhilde Wirth; Evgeni Ponimaskin; Rainer Niedenthal; Claudia Grothe; Peter Claus

doi:10.1093/hmg/ddr425

The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin

Anna Nölle, Andre Zeug, Jeroen Van bergeijk, Lars Tönges, Ralf Gerhard, Hella Brinkmann, Sarah Al rayes, Niko Hensel, Yvonne Schill, David Apkhazava, Sibylle Jablonka, Jana O'mer, Ratnesh Kumar srivastav, Anne Baasner, Paul Lingor, Brunhilde Wirth, Evgeni Ponimaskin, Rainer Niedenthal, Claudia Grothe, Peter Claus

Research output: Contribution to journal › Article › peer-review

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Abstract

Spinal muscular atrophy (SMA), a frequent neurodegenerative disease, is caused by reduced levels of functional survival of motoneuron (SMN) protein. SMN is involved in multiple pathways, including RNA metabolism and splicing as well as motoneuron development and function. Here we provide evidence for a major contribution of the Rho-kinase (ROCK) pathway in SMA pathogenesis. Using an in vivo protein interaction system based on SUMOylation of proteins, we found that SMN is directly interacting with profilin2a. Profilin2a binds to a stretch of proline residues in SMN, which is heavily impaired by a novel SMN2 missense mutation (S230L) derived from a SMA patient. In different SMA models, we identified differential phosphorylation of the ROCK-downstream targets cofilin, myosin-light chain phosphatase and profilin2a. We suggest that hyper-phosphorylation of profilin2a is the molecular link between SMN and the ROCK pathway repressing neurite outgrowth in neuronal cells. Finally, we found a neuron-specific increase in the F-/G-actin ratio that further support the role of actin dynamics in SMA pathogenesis.

Original language	English
Article number	ddr425
Pages (from-to)	4865-4878
Number of pages	14
Journal	Human Molecular Genetics
Volume	20
Issue number	24
DOIs	https://doi.org/10.1093/hmg/ddr425
State	Published - Dec 2011
Externally published	Yes

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Nölle, A., Zeug, A., Van bergeijk, J., Tönges, L., Gerhard, R., Brinkmann, H., Al rayes, S., Hensel, N., Schill, Y., Apkhazava, D., Jablonka, S., O'mer, J., Kumar srivastav, R., Baasner, A., Lingor, P., Wirth, B., Ponimaskin, E., Niedenthal, R., Grothe, C., & Claus, P. (2011). The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin. Human Molecular Genetics, 20(24), 4865-4878. Article ddr425. https://doi.org/10.1093/hmg/ddr425

@article{7225dfcd43fd4560bb5dc6c28534fc66,

title = "The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin",

abstract = "Spinal muscular atrophy (SMA), a frequent neurodegenerative disease, is caused by reduced levels of functional survival of motoneuron (SMN) protein. SMN is involved in multiple pathways, including RNA metabolism and splicing as well as motoneuron development and function. Here we provide evidence for a major contribution of the Rho-kinase (ROCK) pathway in SMA pathogenesis. Using an in vivo protein interaction system based on SUMOylation of proteins, we found that SMN is directly interacting with profilin2a. Profilin2a binds to a stretch of proline residues in SMN, which is heavily impaired by a novel SMN2 missense mutation (S230L) derived from a SMA patient. In different SMA models, we identified differential phosphorylation of the ROCK-downstream targets cofilin, myosin-light chain phosphatase and profilin2a. We suggest that hyper-phosphorylation of profilin2a is the molecular link between SMN and the ROCK pathway repressing neurite outgrowth in neuronal cells. Finally, we found a neuron-specific increase in the F-/G-actin ratio that further support the role of actin dynamics in SMA pathogenesis.",

author = "Anna N{\"o}lle and Andre Zeug and {Van bergeijk}, Jeroen and Lars T{\"o}nges and Ralf Gerhard and Hella Brinkmann and {Al rayes}, Sarah and Niko Hensel and Yvonne Schill and David Apkhazava and Sibylle Jablonka and Jana O'mer and {Kumar srivastav}, Ratnesh and Anne Baasner and Paul Lingor and Brunhilde Wirth and Evgeni Ponimaskin and Rainer Niedenthal and Claudia Grothe and Peter Claus",

note = "Funding Information: This work was supported by grants from the Lower Saxony State Department of Science and Culture and Center for Systems Neuroscience, Hannover, and the R{\"o}chling Foundation, Germany to P.C., and of the Deutsche Forschungsge-meinschaft (Wi945/12-3 and Wi945/13-1) and Center for Molecular Medicine (D7) to B.W.",

year = "2011",

month = dec,

doi = "10.1093/hmg/ddr425",

language = "English",

volume = "20",

pages = "4865--4878",

journal = "Human Molecular Genetics",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "24",

}

Nölle, A, Zeug, A, Van bergeijk, J, Tönges, L, Gerhard, R, Brinkmann, H, Al rayes, S, Hensel, N, Schill, Y, Apkhazava, D, Jablonka, S, O'mer, J, Kumar srivastav, R, Baasner, A, Lingor, P, Wirth, B, Ponimaskin, E, Niedenthal, R, Grothe, C & Claus, P 2011, 'The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin', Human Molecular Genetics, vol. 20, no. 24, ddr425, pp. 4865-4878. https://doi.org/10.1093/hmg/ddr425

TY - JOUR

T1 - The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin

AU - Nölle, Anna

AU - Zeug, Andre

AU - Van bergeijk, Jeroen

AU - Tönges, Lars

AU - Gerhard, Ralf

AU - Brinkmann, Hella

AU - Al rayes, Sarah

AU - Hensel, Niko

AU - Schill, Yvonne

AU - Apkhazava, David

AU - Jablonka, Sibylle

AU - O'mer, Jana

AU - Kumar srivastav, Ratnesh

AU - Baasner, Anne

AU - Lingor, Paul

AU - Wirth, Brunhilde

AU - Ponimaskin, Evgeni

AU - Niedenthal, Rainer

AU - Grothe, Claudia

AU - Claus, Peter

N1 - Funding Information: This work was supported by grants from the Lower Saxony State Department of Science and Culture and Center for Systems Neuroscience, Hannover, and the Röchling Foundation, Germany to P.C., and of the Deutsche Forschungsge-meinschaft (Wi945/12-3 and Wi945/13-1) and Center for Molecular Medicine (D7) to B.W.

PY - 2011/12

Y1 - 2011/12

N2 - Spinal muscular atrophy (SMA), a frequent neurodegenerative disease, is caused by reduced levels of functional survival of motoneuron (SMN) protein. SMN is involved in multiple pathways, including RNA metabolism and splicing as well as motoneuron development and function. Here we provide evidence for a major contribution of the Rho-kinase (ROCK) pathway in SMA pathogenesis. Using an in vivo protein interaction system based on SUMOylation of proteins, we found that SMN is directly interacting with profilin2a. Profilin2a binds to a stretch of proline residues in SMN, which is heavily impaired by a novel SMN2 missense mutation (S230L) derived from a SMA patient. In different SMA models, we identified differential phosphorylation of the ROCK-downstream targets cofilin, myosin-light chain phosphatase and profilin2a. We suggest that hyper-phosphorylation of profilin2a is the molecular link between SMN and the ROCK pathway repressing neurite outgrowth in neuronal cells. Finally, we found a neuron-specific increase in the F-/G-actin ratio that further support the role of actin dynamics in SMA pathogenesis.

AB - Spinal muscular atrophy (SMA), a frequent neurodegenerative disease, is caused by reduced levels of functional survival of motoneuron (SMN) protein. SMN is involved in multiple pathways, including RNA metabolism and splicing as well as motoneuron development and function. Here we provide evidence for a major contribution of the Rho-kinase (ROCK) pathway in SMA pathogenesis. Using an in vivo protein interaction system based on SUMOylation of proteins, we found that SMN is directly interacting with profilin2a. Profilin2a binds to a stretch of proline residues in SMN, which is heavily impaired by a novel SMN2 missense mutation (S230L) derived from a SMA patient. In different SMA models, we identified differential phosphorylation of the ROCK-downstream targets cofilin, myosin-light chain phosphatase and profilin2a. We suggest that hyper-phosphorylation of profilin2a is the molecular link between SMN and the ROCK pathway repressing neurite outgrowth in neuronal cells. Finally, we found a neuron-specific increase in the F-/G-actin ratio that further support the role of actin dynamics in SMA pathogenesis.

UR - http://www.scopus.com/inward/record.url?scp=81855166084&partnerID=8YFLogxK

U2 - 10.1093/hmg/ddr425

DO - 10.1093/hmg/ddr425

M3 - Article

C2 - 21920940

AN - SCOPUS:81855166084

SN - 0964-6906

VL - 20

SP - 4865

EP - 4878

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 24

M1 - ddr425

ER -

The spinal muscular atrophy disease protein SMN is linked to the Rho-kinase pathway via profilin

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