TY - JOUR
T1 - Genetic Deletion of Cadm4 Results in Myelin Abnormalities Resembling Charcot-Marie-Tooth Neuropathy
AU - Golan, Neev
AU - Kartvelishvily, Elena
AU - Spiegel, Ivo
AU - Salomon, Daniela
AU - Sabanay, Helena
AU - Rechav, Katya
AU - Vainshtein, Anya
AU - Frechter, Shahar
AU - Maik-Rachline, Galia
AU - Eshed Eisenbach, Eisenbach, Yael
AU - Momoi, Takashi
AU - Peles, Elior
N1 - National Institutes of Health [NS50220]; Israel Science Foundation; Minerva Foundation; Adelson Medical Research Foundation; Moskowitz Center for Imaging at the Weizmann InstituteThis work was supported by the National Institutes of Health Grant NS50220, the Israel Science Foundation, the Minerva Foundation, the Adelson Medical Research Foundation, and the Moskowitz Center for Imaging at the Weizmann Institute. E. P. is the Incumbent of the Hanna Hertz Professorial Chair for Multiple Sclerosis and Neuroscience. We thank Dr. Alan Peterson for the MBP promoter construct, Veronique Amor for critical comments on the manuscript, and Raffi Saka and the team of Golda Damari from the Department of Veterinary Resources for their invaluable assistance in generation and maintenance of mice.
PY - 2013/7
Y1 - 2013/7
N2 - The interaction between myelinating Schwann cells and the axons they ensheath is mediated by cell adhesion molecules of the Cadm/Necl/SynCAM family. This family consists of four members: Cadm4/Necl4 and Cadm1/Necl2 are found in both glia and axons, whereas Cadm2/Necl3 and Cadm3/Necl1 are expressed by sensory and motor neurons. By generating mice lacking each of the Cadm genes, we now demonstrate that Cadm4 plays a role in the establishment of the myelin unit in the peripheral nervous system. Mice lacking Cadm4 (PGK-Cre/Cadm4(fl/fl)), but not Cadm1, Cadm2, or Cadm3, develop focal hypermyelination characterized by tomacula and myelin outfoldings, which are the hallmark of several Charcot-Marie-Tooth neuropathies. The absence of Cadm4 also resulted in abnormal axon-glial contact and redistribution of ion channels along the axon. These neuropathological features were also found in transgenic mice expressing a dominant-negative mutant of Cadm4 lacking its cytoplasmic domain in myelinating glia Tg(mbp-Cadm4dCT), as well as in mice lacking Cadm4 specifically in Schwann cells (DHH-Cre/Cadm4(fl/fl)). Consistent with these abnormalities, both PGK-Cre/Cadm4(fl/fl) and Tg(mbp-Cadm4dCT) mice exhibit impaired motor function and slower nerve conduction velocity. These findings indicate that Cadm4 regulates the growth of the myelin unit and the organization of the underlying axonal membrane.
AB - The interaction between myelinating Schwann cells and the axons they ensheath is mediated by cell adhesion molecules of the Cadm/Necl/SynCAM family. This family consists of four members: Cadm4/Necl4 and Cadm1/Necl2 are found in both glia and axons, whereas Cadm2/Necl3 and Cadm3/Necl1 are expressed by sensory and motor neurons. By generating mice lacking each of the Cadm genes, we now demonstrate that Cadm4 plays a role in the establishment of the myelin unit in the peripheral nervous system. Mice lacking Cadm4 (PGK-Cre/Cadm4(fl/fl)), but not Cadm1, Cadm2, or Cadm3, develop focal hypermyelination characterized by tomacula and myelin outfoldings, which are the hallmark of several Charcot-Marie-Tooth neuropathies. The absence of Cadm4 also resulted in abnormal axon-glial contact and redistribution of ion channels along the axon. These neuropathological features were also found in transgenic mice expressing a dominant-negative mutant of Cadm4 lacking its cytoplasmic domain in myelinating glia Tg(mbp-Cadm4dCT), as well as in mice lacking Cadm4 specifically in Schwann cells (DHH-Cre/Cadm4(fl/fl)). Consistent with these abnormalities, both PGK-Cre/Cadm4(fl/fl) and Tg(mbp-Cadm4dCT) mice exhibit impaired motor function and slower nerve conduction velocity. These findings indicate that Cadm4 regulates the growth of the myelin unit and the organization of the underlying axonal membrane.
U2 - https://doi.org/10.1523/JNEUROSCI.0571-13.2013
DO - https://doi.org/10.1523/JNEUROSCI.0571-13.2013
M3 - مقالة
SN - 0270-6474
VL - 33
SP - 10950
EP - 10961
JO - Journal of Neuroscience
JF - Journal of Neuroscience
IS - 27
ER -