Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology

Irit Reichenstein; Chen Eitan; Sandra Diaz-Garcia; Guy Haim; Iddo Magen; Aviad Siany; Mariah L Hoye; Natali Rivkin; Tsviya Olender; Beata Toth; Revital Ravid; Amitai D Mandelbaum; Eran Yanowski; Jing Liang; Jeffrey K Rymer; Rivka Levy; Gilad Beck; Elena Ainbinder; Sali M K Farhan; Kimberly A Lennox; Nicole M Bode; Mark A Behlke; Thomas Möller; Smita Saxena; Cristiane A M Moreno; Giancarlo Costaguta; Kristel R van Eijk; Hemali Phatnani; Ammar Al-Chalabi; A Nazli Başak; Leonard H van den Berg; Orla Hardiman; John E Landers; Jesus S Mora; Karen E Morrison; Pamela J Shaw; Jan H Veldink; Samuel L Pfaff; Ofer Yizhar; Christina Gross; Robert H Brown; John M Ravits; Matthew B Harms; Timothy M Miller; Eran Hornstein

doi:10.1126/scitranslmed.aav5264

Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology

Irit Reichenstein
, Chen Eitan
, Sandra Diaz-Garcia
, Guy Haim
, Iddo Magen
, Aviad Siany
, Mariah L Hoye
, Natali Rivkin
, Tsviya Olender
, Beata Toth
, Revital Ravid
, Amitai D Mandelbaum
, Eran Yanowski
, Jing Liang
, Jeffrey K Rymer
, Rivka Levy
, Gilad Beck
, Elena Ainbinder
, Sali M K Farhan
, Kimberly A Lennox

Nicole M Bode, Mark A Behlke, Thomas Möller, Smita Saxena, Cristiane A M Moreno, Giancarlo Costaguta, Kristel R van Eijk, Hemali Phatnani, Ammar Al-Chalabi, A Nazli Başak, Leonard H van den Berg, Orla Hardiman, John E Landers, Jesus S Mora, Karen E Morrison, Pamela J Shaw, Jan H Veldink, Samuel L Pfaff, Ofer Yizhar, Christina Gross, Robert H Brown, John M Ravits, Matthew B Harms, Timothy M Miller, Eran Hornstein

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

Abstract

Motor neuron-specific microRNA-218 (miR-218) has recently received attention because of its roles in mouse development. However, miR-218 relevance to human motor neuron disease was not yet explored. Here, we demonstrate by neuropathology that miR-218 is abundant in healthy human motor neurons. However, in amyotrophic lateral sclerosis (ALS) motor neurons, miR-218 is down-regulated and its mRNA targets are reciprocally up-regulated (derepressed). We further identify the potassium channel Kv10.1 as a new miR-218 direct target that controls neuronal activity. In addition, we screened thousands of ALS genomes and identified six rare variants in the human miR-218-2 sequence. miR-218 gene variants fail to regulate neuron activity, suggesting the importance of this small endogenous RNA for neuronal robustness. The underlying mechanisms involve inhibition of miR-218 biogenesis and reduced processing by DICER. Therefore, miR-218 activity in motor neurons may be susceptible to failure in human ALS, suggesting that miR-218 may be a potential therapeutic target in motor neuron disease.

Original language	English
Article number	eaav5264
Number of pages	12
Journal	Science Translational Medicine
Volume	11
Issue number	523
DOIs	https://doi.org/10.1126/scitranslmed.aav5264
Publication status	Published - 18 Dec 2019

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Reichenstein, I., Eitan, C., Diaz-Garcia, S., Haim, G., Magen, I., Siany, A., Hoye, M. L., Rivkin, N., Olender, T., Toth, B., Ravid, R., Mandelbaum, A. D., Yanowski, E., Liang, J., Rymer, J. K., Levy, R., Beck, G., Ainbinder, E., Farhan, S. M. K., ... Hornstein, E. (2019). Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology. Science Translational Medicine, 11(523), Article eaav5264. https://doi.org/10.1126/scitranslmed.aav5264

@article{9c96d353de30476ab44bf8c1fb522383,

title = "Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology",

abstract = "Motor neuron-specific microRNA-218 (miR-218) has recently received attention because of its roles in mouse development. However, miR-218 relevance to human motor neuron disease was not yet explored. Here, we demonstrate by neuropathology that miR-218 is abundant in healthy human motor neurons. However, in amyotrophic lateral sclerosis (ALS) motor neurons, miR-218 is down-regulated and its mRNA targets are reciprocally up-regulated (derepressed). We further identify the potassium channel Kv10.1 as a new miR-218 direct target that controls neuronal activity. In addition, we screened thousands of ALS genomes and identified six rare variants in the human miR-218-2 sequence. miR-218 gene variants fail to regulate neuron activity, suggesting the importance of this small endogenous RNA for neuronal robustness. The underlying mechanisms involve inhibition of miR-218 biogenesis and reduced processing by DICER. Therefore, miR-218 activity in motor neurons may be susceptible to failure in human ALS, suggesting that miR-218 may be a potential therapeutic target in motor neuron disease.",

author = "Irit Reichenstein and Chen Eitan and Sandra Diaz-Garcia and Guy Haim and Iddo Magen and Aviad Siany and Hoye, \{Mariah L\} and Natali Rivkin and Tsviya Olender and Beata Toth and Revital Ravid and Mandelbaum, \{Amitai D\} and Eran Yanowski and Jing Liang and Rymer, \{Jeffrey K\} and Rivka Levy and Gilad Beck and Elena Ainbinder and Farhan, \{Sali M K\} and Lennox, \{Kimberly A\} and Bode, \{Nicole M\} and Behlke, \{Mark A\} and Thomas M{\"o}ller and Smita Saxena and Moreno, \{Cristiane A M\} and Giancarlo Costaguta and \{van Eijk\}, \{Kristel R\} and Hemali Phatnani and Ammar Al-Chalabi and Ba{\c s}ak, \{A Nazli\} and \{van den Berg\}, \{Leonard H\} and Orla Hardiman and Landers, \{John E\} and Mora, \{Jesus S\} and Morrison, \{Karen E\} and Shaw, \{Pamela J\} and Veldink, \{Jan H\} and Pfaff, \{Samuel L\} and Ofer Yizhar and Christina Gross and Brown, \{Robert H\} and Ravits, \{John M\} and Harms, \{Matthew B\} and Miller, \{Timothy M\} and Eran Hornstein",

note = "Publisher Copyright: Copyright {\textcopyright} 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works",

year = "2019",

month = dec,

day = "18",

doi = "10.1126/scitranslmed.aav5264",

language = "English",

volume = "11",

journal = "Science Translational Medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "523",

}

Reichenstein, I, Eitan, C, Diaz-Garcia, S, Haim, G, Magen, I, Siany, A, Hoye, ML, Rivkin, N, Olender, T, Toth, B, Ravid, R, Mandelbaum, AD, Yanowski, E, Liang, J, Rymer, JK, Levy, R, Beck, G, Ainbinder, E, Farhan, SMK, Lennox, KA, Bode, NM, Behlke, MA, Möller, T, Saxena, S, Moreno, CAM, Costaguta, G, van Eijk, KR, Phatnani, H, Al-Chalabi, A, Başak, AN, van den Berg, LH, Hardiman, O, Landers, JE, Mora, JS, Morrison, KE, Shaw, PJ, Veldink, JH, Pfaff, SL, Yizhar, O, Gross, C, Brown, RH, Ravits, JM, Harms, MB, Miller, TM & Hornstein, E 2019, 'Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology', Science Translational Medicine, vol. 11, no. 523, eaav5264. https://doi.org/10.1126/scitranslmed.aav5264

TY - JOUR

T1 - Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology

AU - Reichenstein, Irit

AU - Eitan, Chen

AU - Diaz-Garcia, Sandra

AU - Haim, Guy

AU - Magen, Iddo

AU - Siany, Aviad

AU - Hoye, Mariah L

AU - Rivkin, Natali

AU - Olender, Tsviya

AU - Toth, Beata

AU - Ravid, Revital

AU - Mandelbaum, Amitai D

AU - Yanowski, Eran

AU - Liang, Jing

AU - Rymer, Jeffrey K

AU - Levy, Rivka

AU - Beck, Gilad

AU - Ainbinder, Elena

AU - Farhan, Sali M K

AU - Lennox, Kimberly A

AU - Bode, Nicole M

AU - Behlke, Mark A

AU - Möller, Thomas

AU - Saxena, Smita

AU - Moreno, Cristiane A M

AU - Costaguta, Giancarlo

AU - van Eijk, Kristel R

AU - Phatnani, Hemali

AU - Al-Chalabi, Ammar

AU - Başak, A Nazli

AU - van den Berg, Leonard H

AU - Hardiman, Orla

AU - Landers, John E

AU - Mora, Jesus S

AU - Morrison, Karen E

AU - Shaw, Pamela J

AU - Veldink, Jan H

AU - Pfaff, Samuel L

AU - Yizhar, Ofer

AU - Gross, Christina

AU - Brown, Robert H

AU - Ravits, John M

AU - Harms, Matthew B

AU - Miller, Timothy M

AU - Hornstein, Eran

PY - 2019/12/18

Y1 - 2019/12/18

N2 - Motor neuron-specific microRNA-218 (miR-218) has recently received attention because of its roles in mouse development. However, miR-218 relevance to human motor neuron disease was not yet explored. Here, we demonstrate by neuropathology that miR-218 is abundant in healthy human motor neurons. However, in amyotrophic lateral sclerosis (ALS) motor neurons, miR-218 is down-regulated and its mRNA targets are reciprocally up-regulated (derepressed). We further identify the potassium channel Kv10.1 as a new miR-218 direct target that controls neuronal activity. In addition, we screened thousands of ALS genomes and identified six rare variants in the human miR-218-2 sequence. miR-218 gene variants fail to regulate neuron activity, suggesting the importance of this small endogenous RNA for neuronal robustness. The underlying mechanisms involve inhibition of miR-218 biogenesis and reduced processing by DICER. Therefore, miR-218 activity in motor neurons may be susceptible to failure in human ALS, suggesting that miR-218 may be a potential therapeutic target in motor neuron disease.

AB - Motor neuron-specific microRNA-218 (miR-218) has recently received attention because of its roles in mouse development. However, miR-218 relevance to human motor neuron disease was not yet explored. Here, we demonstrate by neuropathology that miR-218 is abundant in healthy human motor neurons. However, in amyotrophic lateral sclerosis (ALS) motor neurons, miR-218 is down-regulated and its mRNA targets are reciprocally up-regulated (derepressed). We further identify the potassium channel Kv10.1 as a new miR-218 direct target that controls neuronal activity. In addition, we screened thousands of ALS genomes and identified six rare variants in the human miR-218-2 sequence. miR-218 gene variants fail to regulate neuron activity, suggesting the importance of this small endogenous RNA for neuronal robustness. The underlying mechanisms involve inhibition of miR-218 biogenesis and reduced processing by DICER. Therefore, miR-218 activity in motor neurons may be susceptible to failure in human ALS, suggesting that miR-218 may be a potential therapeutic target in motor neuron disease.

U2 - 10.1126/scitranslmed.aav5264

DO - 10.1126/scitranslmed.aav5264

M3 - Article

C2 - 31852800

SN - 1946-6234

VL - 11

JO - Science Translational Medicine

JF - Science Translational Medicine

IS - 523

M1 - eaav5264

ER -

Human genetics and neuropathology suggest a link between miR-218 and amyotrophic lateral sclerosis pathophysiology

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