TY - JOUR
T1 - Optogenetic Spreading Depression Elicits Trigeminal Pain and Anxiety Behavior
AU - Harriott, Andrea M.
AU - Chung, David Y.
AU - Uner, Aylin
AU - Bozdayi, Refik O.
AU - Morais, Andreia
AU - Takizawa, Tsubasa
AU - Qin, Tao
AU - Ayata, Cenk
N1 - Funding Information:
The authors thank Isra Tamim for the illustration showing mouse grimace scores. Support is provided to by the Phyllis and Jerome Lyle Rappaport Foundation, Building Interdisciplinary Careers in Women's Health Award – (NIH, 5K12HD051959), and the Training in Research for Academic Neurologists to Sustain Careers and Enhance the Numbers of Diverse Scholars (TRANSCENDS) ‐ NINDS/NIH Award through the American Academy of Neurology (R25 NS098999‐02); to by the NIH (R25NS065743, KL2TR002542, and K08NS112601), American Heart Association (18POST34030369), Brain Aneurysm Foundation, AVM Foundation, and Heitman Foundation; to by Keio University Global Research Institute (KGRI) Pre‐Start‐up Grant; and to by the NINDS/NIH (R01NS102969), Foundation Leducq, Heitman Foundation, and the Ellison Foundation Awards. A.H. D.Y.C T.T. C.A.
Funding Information:
The authors thank Isra Tamim for the illustration showing mouse grimace scores. Support is provided to A.H. by the Phyllis and Jerome Lyle Rappaport Foundation, Building Interdisciplinary Careers in Women's Health Award ? (NIH, 5K12HD051959), and the Training in Research for Academic Neurologists to Sustain Careers and Enhance the Numbers of Diverse Scholars (TRANSCENDS) - NINDS/NIH Award through the American Academy of Neurology (R25 NS098999-02); to D.Y.C by the NIH (R25NS065743, KL2TR002542, and K08NS112601), American Heart Association (18POST34030369), Brain Aneurysm Foundation, AVM Foundation, and Heitman Foundation; to T.T. by Keio University Global Research Institute (KGRI) Pre-Start-up Grant; and to C.A. by the NINDS/NIH (R01NS102969), Foundation Leducq, Heitman Foundation, and the Ellison Foundation Awards.
Publisher Copyright:
© 2020 American Neurological Association
PY - 2021/1
Y1 - 2021/1
N2 - Objective: Cortical spreading depression (SD) is an intense depolarization underlying migraine aura. Despite the weight of evidence linking SD to the pain phase of migraine, controversy remains over a causal role of SD in cephalgia because of the invasive nature of previous SD induction methods. To overcome this problem, we used a novel minimally invasive optogenetic SD induction method and examined the effect of SD on behavior. Methods: Optogenetic SD was induced as a single event or repeatedly every other day for 2 weeks. End points, including periorbital and hindpaw mechanical allodynia, mouse grimace, anxiety, and working memory, were examined in male and female mice. Results: A single SD produced bilateral periorbital mechanical allodynia that developed within 1 hour and resolved within 2 days. Sumatriptan prevented periorbital allodynia when administered immediately after SD. Repeated SDs also produced bilateral periorbital allodynia that lasted 4 days and resolved within 2 weeks after the last SD. In contrast, the hindpaw withdrawal thresholds did not change after repeated SDs suggesting that SD-induced allodynia was limited to the trigeminal region. Moreover, repeated SDs increased mouse grimace scores 2 days after the last SD, whereas a single SD did not. Repeated SDs also increased thigmotaxis scores as a measure of anxiety. In contrast, neither single nor repeated SDs affected visuospatial working memory. We did not detect sexual dimorphism in any end point. Interpretation: Altogether, these data show a clinically congruent causal relationship among SD, trigeminal pain, and anxiety behavior, possibly reflecting SD modulation of hypothalamic, thalamic, and limbic mechanisms. ANN NEUROL 2021;89:99–110.
AB - Objective: Cortical spreading depression (SD) is an intense depolarization underlying migraine aura. Despite the weight of evidence linking SD to the pain phase of migraine, controversy remains over a causal role of SD in cephalgia because of the invasive nature of previous SD induction methods. To overcome this problem, we used a novel minimally invasive optogenetic SD induction method and examined the effect of SD on behavior. Methods: Optogenetic SD was induced as a single event or repeatedly every other day for 2 weeks. End points, including periorbital and hindpaw mechanical allodynia, mouse grimace, anxiety, and working memory, were examined in male and female mice. Results: A single SD produced bilateral periorbital mechanical allodynia that developed within 1 hour and resolved within 2 days. Sumatriptan prevented periorbital allodynia when administered immediately after SD. Repeated SDs also produced bilateral periorbital allodynia that lasted 4 days and resolved within 2 weeks after the last SD. In contrast, the hindpaw withdrawal thresholds did not change after repeated SDs suggesting that SD-induced allodynia was limited to the trigeminal region. Moreover, repeated SDs increased mouse grimace scores 2 days after the last SD, whereas a single SD did not. Repeated SDs also increased thigmotaxis scores as a measure of anxiety. In contrast, neither single nor repeated SDs affected visuospatial working memory. We did not detect sexual dimorphism in any end point. Interpretation: Altogether, these data show a clinically congruent causal relationship among SD, trigeminal pain, and anxiety behavior, possibly reflecting SD modulation of hypothalamic, thalamic, and limbic mechanisms. ANN NEUROL 2021;89:99–110.
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U2 - 10.1002/ana.25926
DO - 10.1002/ana.25926
M3 - Article
C2 - 33016466
AN - SCOPUS:85093917474
SN - 0364-5134
VL - 89
SP - 99
EP - 110
JO - Annals of Neurology
JF - Annals of Neurology
IS - 1
ER -