TY - JOUR
T1 - NEM6, KBTBD13-Related Congenital Myopathy
T2 - Myopathological Analysis in 18 Dutch Patients Reveals Ring Rods Fibers, Cores, Nuclear Clumps, and Granulo-Filamentous Protein Material
AU - Bouman, Karlijn
AU - Küsters, Benno
AU - De Winter, Josine M.
AU - Gillet, Cynthia
AU - Van Kleef, Esmee S.B.
AU - Eshuis, Lilian
AU - Brochier, Guy
AU - Madelaine, Angeline
AU - Labasse, Clémence
AU - Boulogne, Claire
AU - Van Engelen, Baziel G.M.
AU - Ottenheijm, Coen A.C.
AU - Romero, Norma B.
AU - Voermans, Nicol C.
AU - Malfatti, Edoardo
N1 - Publisher Copyright:
© 2021 American Association of Neuropathologists, Inc. All rights reserved.
PY - 2021/4/1
Y1 - 2021/4/1
N2 - Nemaline myopathy type 6 (NEM6), KBTBD13-related congenital myopathy is caused by mutated KBTBD13 protein that interacts improperly with thin filaments/actin, provoking impaired muscle-relaxation kinetics. We describe muscle morphology in 18 Dutch NEM6 patients and correlate it with clinical phenotype and pathophysiological mechanisms. Rods were found in in 85% of biopsies by light microscopy, and 89% by electron microscopy. A peculiar ring disposition of rods resulting in ring-rods fiber was observed. Cores were found in 79% of NEM6 biopsies by light microscopy, and 83% by electron microscopy. Electron microscopy also disclosed granulofilamentous protein material in 9 biopsies. Fiber type 1 predominance and prominent nuclear internalization were found. Rods were immunoreactive for α-actinin and myotilin. Areas surrounding the rods showed titin overexpression suggesting derangement of the surrounding sarcomeres. NEM6 myopathology hallmarks are prominent cores, rods including ring-rods fibers, nuclear clumps, and granulofilamentous protein material. This material might represent the histopathologic epiphenomenon of altered interaction between mutated KBTBD13 protein and thin filaments. We claim to classify KBTBD13-related congenital myopathy as rod-core myopathy.
AB - Nemaline myopathy type 6 (NEM6), KBTBD13-related congenital myopathy is caused by mutated KBTBD13 protein that interacts improperly with thin filaments/actin, provoking impaired muscle-relaxation kinetics. We describe muscle morphology in 18 Dutch NEM6 patients and correlate it with clinical phenotype and pathophysiological mechanisms. Rods were found in in 85% of biopsies by light microscopy, and 89% by electron microscopy. A peculiar ring disposition of rods resulting in ring-rods fiber was observed. Cores were found in 79% of NEM6 biopsies by light microscopy, and 83% by electron microscopy. Electron microscopy also disclosed granulofilamentous protein material in 9 biopsies. Fiber type 1 predominance and prominent nuclear internalization were found. Rods were immunoreactive for α-actinin and myotilin. Areas surrounding the rods showed titin overexpression suggesting derangement of the surrounding sarcomeres. NEM6 myopathology hallmarks are prominent cores, rods including ring-rods fibers, nuclear clumps, and granulofilamentous protein material. This material might represent the histopathologic epiphenomenon of altered interaction between mutated KBTBD13 protein and thin filaments. We claim to classify KBTBD13-related congenital myopathy as rod-core myopathy.
KW - Congenital nemaline myopathy type 6 (NEM6)
KW - Cores
KW - Electron microscopy
KW - Granulofilamentous protein material
KW - KBTBD13
KW - Myopathology
KW - Nuclear clumps
KW - Rods
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U2 - 10.1093/jnen/nlab012
DO - 10.1093/jnen/nlab012
M3 - Article
C2 - 33693846
AN - SCOPUS:85103474487
SN - 0022-3069
VL - 80
SP - 366
EP - 376
JO - Journal of Neuropathology and Experimental Neurology
JF - Journal of Neuropathology and Experimental Neurology
IS - 4
ER -