Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors

Ketu Mishra-Gorur; Ahmet Okay Çağlayan; Ashleigh E. Schaffer; Chiswili Chabu; Octavian Henegariu; Fernando Vonhoff; Gözde Tuğce Akgümüş; Sayoko Nishimura; Wenqi Han; Shu Tu; Burçin Baran; Hakan Gümüş; Cengiz Dilber; Maha S. Zaki; Heba A.A. Hossni; Jean Baptiste Rivière; Hülya Kayserili; Emily G. Spencer; Rasim Rosti; Jana Schroth; Hüseyin Per; Caner Çağlar; Çağri Çağlar; Duygu Dölen; Jacob F. Baranoski; Sefer Kumandaş; Frank J. Minja; E. Zeynep Erson-Omay; Shrikant M. Mane; Richard P. Lifton; Tian Xu; Haig Keshishian; William B. Dobyns; Neil C. Chi; Nenad Šestan; Angeliki Louvi; Kaya Bilgüvar; Katsuhito Yasuno; Joseph G. Gleeson; Murat Günel

doi:10.1016/j.neuron.2014.12.014

Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors

Ketu Mishra-Gorur, Ahmet Okay Çağlayan, Ashleigh E. Schaffer, Chiswili Chabu, Octavian Henegariu, Fernando Vonhoff, Gözde Tuğce Akgümüş, Sayoko Nishimura, Wenqi Han, Shu Tu, Burçin Baran, Hakan Gümüş, Cengiz Dilber, Maha S. Zaki, Heba A.A. Hossni, Jean Baptiste Rivière, Hülya Kayserili, Emily G. Spencer, Rasim Rosti, Jana SchrothHüseyin Per, Caner Çağlar, Çağri Çağlar, Duygu Dölen, Jacob F. Baranoski, Sefer Kumandaş, Frank J. Minja, E. Zeynep Erson-Omay, Shrikant M. Mane, Richard P. Lifton, Tian Xu, Haig Keshishian, William B. Dobyns, Neil C. Chi, Nenad Šestan, Angeliki Louvi, Kaya Bilgüvar, Katsuhito Yasuno, Joseph G. Gleeson, Murat Günel

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

53 Scopus citations

Abstract

Exome sequencing analysis of over 2,000 children with complex malformations of cortical development identified five independent (four homozygous and one compound heterozygous) deleterious mutations in KATNB1, encoding the regulatory subunit of the microtubule-severing enzyme Katanin. Mitotic spindle formation is defective in patient-derived fibroblasts, a consequence of disrupted interactions of mutant KATNB1 with KATNA1, the catalytic subunit of Katanin, and other microtubule-associated proteins. Loss of KATNB1 orthologs in zebrafish (katnb1) and flies (kat80) results in microcephaly, recapitulating the human phenotype. In the developing Drosophila optic lobe, kat80 loss specifically affects the asymmetrically dividing neuroblasts, which display supernumerary centrosomes and spindle abnormalities during mitosis, leading to cell cycle progression delays and reduced cell numbers. Furthermore, kat80 depletion results in dendritic arborization defects in sensory and motor neurons, affecting neural architecture. Taken together, we provide insight into the mechanisms by which KATNB1 mutations cause human cerebral cortical malformations, demonstrating its fundamental role during brain development.

Original language	English (US)
Pages (from-to)	1226-1239
Number of pages	14
Journal	Neuron
Volume	84
Issue number	6
DOIs	https://doi.org/10.1016/j.neuron.2014.12.014
State	Published - Dec 17 2014
Externally published	Yes

Bibliographical note

Funding Information:
We thank the patients and families who contributed to this study. This work was supported by the Yale Program on Neurogenetics and National Institutes of Health (NIH) Grants U54HG006504 (Yale Center for Mendelian Disorders, to R.P.L., M.G., M. Gerstein, and S.M.M.), U01MH081896 (to N.Š.), and R01MH103616 (to M.G. and K.B.). This work was also supported by R01NS041537 and P01HD070494 (to J.G.G. and N.C.C.). R.P.L. and J.G.G. are Investigators of the Howard Hughes Medical Institute. We are grateful to the Gregory M. Kiez and Mehmet Kutman Foundation for continuing support.

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Mishra-Gorur, K., Çağlayan, A. O., Schaffer, A. E., Chabu, C., Henegariu, O., Vonhoff, F., Akgümüş, G. T., Nishimura, S., Han, W., Tu, S., Baran, B., Gümüş, H., Dilber, C., Zaki, M. S., Hossni, H. A. A., Rivière, J. B., Kayserili, H., Spencer, E. G., Rosti, R., ... Günel, M. (2014). Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors. Neuron, 84(6), 1226-1239. https://doi.org/10.1016/j.neuron.2014.12.014

Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors. / Mishra-Gorur, Ketu; Çağlayan, Ahmet Okay; Schaffer, Ashleigh E.; Chabu, Chiswili; Henegariu, Octavian; Vonhoff, Fernando; Akgümüş, Gözde Tuğce; Nishimura, Sayoko; Han, Wenqi; Tu, Shu; Baran, Burçin; Gümüş, Hakan; Dilber, Cengiz; Zaki, Maha S.; Hossni, Heba A.A.; Rivière, Jean Baptiste; Kayserili, Hülya; Spencer, Emily G.; Rosti, Rasim; Schroth, Jana; Per, Hüseyin; Çağlar, Caner; Çağlar, Çağri; Dölen, Duygu; Baranoski, Jacob F.; Kumandaş, Sefer; Minja, Frank J.; Erson-Omay, E. Zeynep; Mane, Shrikant M.; Lifton, Richard P.; Xu, Tian; Keshishian, Haig; Dobyns, William B.; Chi, Neil C.; Šestan, Nenad; Louvi, Angeliki; Bilgüvar, Kaya; Yasuno, Katsuhito; Gleeson, Joseph G.; Günel, Murat.

In: Neuron, Vol. 84, No. 6, 17.12.2014, p. 1226-1239.

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

Mishra-Gorur, K, Çağlayan, AO, Schaffer, AE, Chabu, C, Henegariu, O, Vonhoff, F, Akgümüş, GT, Nishimura, S, Han, W, Tu, S, Baran, B, Gümüş, H, Dilber, C, Zaki, MS, Hossni, HAA, Rivière, JB, Kayserili, H, Spencer, EG, Rosti, R, Schroth, J, Per, H, Çağlar, C, Çağlar, Ç, Dölen, D, Baranoski, JF, Kumandaş, S, Minja, FJ, Erson-Omay, EZ, Mane, SM, Lifton, RP, Xu, T, Keshishian, H, Dobyns, WB, Chi, NC, Šestan, N, Louvi, A, Bilgüvar, K, Yasuno, K, Gleeson, JG & Günel, M 2014, 'Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors', Neuron, vol. 84, no. 6, pp. 1226-1239. https://doi.org/10.1016/j.neuron.2014.12.014

Mishra-Gorur, Ketu ; Çağlayan, Ahmet Okay ; Schaffer, Ashleigh E. ; Chabu, Chiswili ; Henegariu, Octavian ; Vonhoff, Fernando ; Akgümüş, Gözde Tuğce ; Nishimura, Sayoko ; Han, Wenqi ; Tu, Shu ; Baran, Burçin ; Gümüş, Hakan ; Dilber, Cengiz ; Zaki, Maha S. ; Hossni, Heba A.A. ; Rivière, Jean Baptiste ; Kayserili, Hülya ; Spencer, Emily G. ; Rosti, Rasim ; Schroth, Jana ; Per, Hüseyin ; Çağlar, Caner ; Çağlar, Çağri ; Dölen, Duygu ; Baranoski, Jacob F. ; Kumandaş, Sefer ; Minja, Frank J. ; Erson-Omay, E. Zeynep ; Mane, Shrikant M. ; Lifton, Richard P. ; Xu, Tian ; Keshishian, Haig ; Dobyns, William B. ; Chi, Neil C. ; Šestan, Nenad ; Louvi, Angeliki ; Bilgüvar, Kaya ; Yasuno, Katsuhito ; Gleeson, Joseph G. ; Günel, Murat. / Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors. In: Neuron. 2014 ; Vol. 84, No. 6. pp. 1226-1239.

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title = "Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors",

abstract = "Exome sequencing analysis of over 2,000 children with complex malformations of cortical development identified five independent (four homozygous and one compound heterozygous) deleterious mutations in KATNB1, encoding the regulatory subunit of the microtubule-severing enzyme Katanin. Mitotic spindle formation is defective in patient-derived fibroblasts, a consequence of disrupted interactions of mutant KATNB1 with KATNA1, the catalytic subunit of Katanin, and other microtubule-associated proteins. Loss of KATNB1 orthologs in zebrafish (katnb1) and flies (kat80) results in microcephaly, recapitulating the human phenotype. In the developing Drosophila optic lobe, kat80 loss specifically affects the asymmetrically dividing neuroblasts, which display supernumerary centrosomes and spindle abnormalities during mitosis, leading to cell cycle progression delays and reduced cell numbers. Furthermore, kat80 depletion results in dendritic arborization defects in sensory and motor neurons, affecting neural architecture. Taken together, we provide insight into the mechanisms by which KATNB1 mutations cause human cerebral cortical malformations, demonstrating its fundamental role during brain development.",

author = "Ketu Mishra-Gorur and {\c C}ağlayan, {Ahmet Okay} and Schaffer, {Ashleigh E.} and Chiswili Chabu and Octavian Henegariu and Fernando Vonhoff and Akg{\"u}m{\"u}{\c s}, {G{\"o}zde Tuğce} and Sayoko Nishimura and Wenqi Han and Shu Tu and Bur{\c c}in Baran and Hakan G{\"u}m{\"u}{\c s} and Cengiz Dilber and Zaki, {Maha S.} and Hossni, {Heba A.A.} and Rivi{\`e}re, {Jean Baptiste} and H{\"u}lya Kayserili and Spencer, {Emily G.} and Rasim Rosti and Jana Schroth and H{\"u}seyin Per and Caner {\c C}ağlar and {\c C}ağri {\c C}ağlar and Duygu D{\"o}len and Baranoski, {Jacob F.} and Sefer Kumanda{\c s} and Minja, {Frank J.} and Erson-Omay, {E. Zeynep} and Mane, {Shrikant M.} and Lifton, {Richard P.} and Tian Xu and Haig Keshishian and Dobyns, {William B.} and Chi, {Neil C.} and Nenad {\v S}estan and Angeliki Louvi and Kaya Bilg{\"u}var and Katsuhito Yasuno and Gleeson, {Joseph G.} and Murat G{\"u}nel",

note = "Funding Information: We thank the patients and families who contributed to this study. This work was supported by the Yale Program on Neurogenetics and National Institutes of Health (NIH) Grants U54HG006504 (Yale Center for Mendelian Disorders, to R.P.L., M.G., M. Gerstein, and S.M.M.), U01MH081896 (to N.{\v S}.), and R01MH103616 (to M.G. and K.B.). This work was also supported by R01NS041537 and P01HD070494 (to J.G.G. and N.C.C.). R.P.L. and J.G.G. are Investigators of the Howard Hughes Medical Institute. We are grateful to the Gregory M. Kiez and Mehmet Kutman Foundation for continuing support. ",

year = "2014",

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doi = "10.1016/j.neuron.2014.12.014",

language = "English (US)",

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T1 - Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors

AU - Mishra-Gorur, Ketu

AU - Çağlayan, Ahmet Okay

AU - Schaffer, Ashleigh E.

AU - Chabu, Chiswili

AU - Henegariu, Octavian

AU - Vonhoff, Fernando

AU - Akgümüş, Gözde Tuğce

AU - Nishimura, Sayoko

AU - Han, Wenqi

AU - Tu, Shu

AU - Baran, Burçin

AU - Gümüş, Hakan

AU - Dilber, Cengiz

AU - Zaki, Maha S.

AU - Hossni, Heba A.A.

AU - Rivière, Jean Baptiste

AU - Kayserili, Hülya

AU - Spencer, Emily G.

AU - Rosti, Rasim

AU - Schroth, Jana

AU - Per, Hüseyin

AU - Çağlar, Caner

AU - Çağlar, Çağri

AU - Dölen, Duygu

AU - Baranoski, Jacob F.

AU - Kumandaş, Sefer

AU - Minja, Frank J.

AU - Erson-Omay, E. Zeynep

AU - Mane, Shrikant M.

AU - Lifton, Richard P.

AU - Xu, Tian

AU - Keshishian, Haig

AU - Dobyns, William B.

AU - Chi, Neil C.

AU - Šestan, Nenad

AU - Louvi, Angeliki

AU - Bilgüvar, Kaya

AU - Yasuno, Katsuhito

AU - Gleeson, Joseph G.

AU - Günel, Murat

N1 - Funding Information: We thank the patients and families who contributed to this study. This work was supported by the Yale Program on Neurogenetics and National Institutes of Health (NIH) Grants U54HG006504 (Yale Center for Mendelian Disorders, to R.P.L., M.G., M. Gerstein, and S.M.M.), U01MH081896 (to N.Š.), and R01MH103616 (to M.G. and K.B.). This work was also supported by R01NS041537 and P01HD070494 (to J.G.G. and N.C.C.). R.P.L. and J.G.G. are Investigators of the Howard Hughes Medical Institute. We are grateful to the Gregory M. Kiez and Mehmet Kutman Foundation for continuing support.

PY - 2014/12/17

Y1 - 2014/12/17

N2 - Exome sequencing analysis of over 2,000 children with complex malformations of cortical development identified five independent (four homozygous and one compound heterozygous) deleterious mutations in KATNB1, encoding the regulatory subunit of the microtubule-severing enzyme Katanin. Mitotic spindle formation is defective in patient-derived fibroblasts, a consequence of disrupted interactions of mutant KATNB1 with KATNA1, the catalytic subunit of Katanin, and other microtubule-associated proteins. Loss of KATNB1 orthologs in zebrafish (katnb1) and flies (kat80) results in microcephaly, recapitulating the human phenotype. In the developing Drosophila optic lobe, kat80 loss specifically affects the asymmetrically dividing neuroblasts, which display supernumerary centrosomes and spindle abnormalities during mitosis, leading to cell cycle progression delays and reduced cell numbers. Furthermore, kat80 depletion results in dendritic arborization defects in sensory and motor neurons, affecting neural architecture. Taken together, we provide insight into the mechanisms by which KATNB1 mutations cause human cerebral cortical malformations, demonstrating its fundamental role during brain development.

AB - Exome sequencing analysis of over 2,000 children with complex malformations of cortical development identified five independent (four homozygous and one compound heterozygous) deleterious mutations in KATNB1, encoding the regulatory subunit of the microtubule-severing enzyme Katanin. Mitotic spindle formation is defective in patient-derived fibroblasts, a consequence of disrupted interactions of mutant KATNB1 with KATNA1, the catalytic subunit of Katanin, and other microtubule-associated proteins. Loss of KATNB1 orthologs in zebrafish (katnb1) and flies (kat80) results in microcephaly, recapitulating the human phenotype. In the developing Drosophila optic lobe, kat80 loss specifically affects the asymmetrically dividing neuroblasts, which display supernumerary centrosomes and spindle abnormalities during mitosis, leading to cell cycle progression delays and reduced cell numbers. Furthermore, kat80 depletion results in dendritic arborization defects in sensory and motor neurons, affecting neural architecture. Taken together, we provide insight into the mechanisms by which KATNB1 mutations cause human cerebral cortical malformations, demonstrating its fundamental role during brain development.

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Mutations in KATNB1 cause complex cerebral malformations by disrupting asymmetrically dividing neural progenitors

Abstract

Bibliographical note

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