TY - JOUR
T1 - Temple-Baraitser Syndrome and Zimmermann-Laband Syndrome
T2 - One clinical entity?
AU - Mégarbané, André
AU - Al-Ali, Rashid
AU - Choucair, Nancy
AU - Lek, Monko
AU - Wang, Ena
AU - Ladjimi, Moncef
AU - Rose, Catherine M.
AU - Hobeika, Remy
AU - Macary, Yvette
AU - Temanni, Ramzi
AU - Jithesh, Puthen V.
AU - Chouchane, Aouatef
AU - Sastry, Konduru S.
AU - Thomas, Remy
AU - Tomei, Sara
AU - Liu, Wei
AU - Marincola, Francesco M.
AU - MacArthur, Daniel
AU - Chouchane, Lotfi
N1 - Publisher Copyright:
© 2016 The Author(s).
PY - 2016/6/10
Y1 - 2016/6/10
N2 - Background: KCNH1 encodes a voltage-gated potassium channel that is predominantly expressed in the central nervous system. Mutations in this gene were recently found to be responsible for Temple-Baraitser Syndrome (TMBTS) and Zimmermann-Laband syndrome (ZLS). Methods: Here, we report a new case of TMBTS diagnosed in a Lebanese child. Whole genome sequencing was carried out on DNA samples of the proband and his parents to identify mutations associated with this disease. Sanger sequencing was performed to confirm the presence of detected variants. Results: Whole genome sequencing revealed three missense mutations in TMBTS patient: c.1042G > A in KCNH1, c.2131 T > C in STK36, and c.726C > A in ZNF517. According to all predictors, mutation in KCNH1 is damaging de novo mutation that results in substitution of Glycine by Arginine, i.e., p.(Gly348Arg). This mutation was already reported in a patient with ZLS that could affect the connecting loop between helices S4-S5 of KCNH1 with a gain of function effect. Conclusions: Our findings demonstrate that KCNH1 mutations cause TMBTS and expand the mutational spectrum of KCNH1 in TMBTS. In addition, all cases of TMBTS were reviewed and compared to ZLS. We suggest that the two syndromes are a continuum and that the variability in the phenotypes is the result of the involvement of genetic modifiers.
AB - Background: KCNH1 encodes a voltage-gated potassium channel that is predominantly expressed in the central nervous system. Mutations in this gene were recently found to be responsible for Temple-Baraitser Syndrome (TMBTS) and Zimmermann-Laband syndrome (ZLS). Methods: Here, we report a new case of TMBTS diagnosed in a Lebanese child. Whole genome sequencing was carried out on DNA samples of the proband and his parents to identify mutations associated with this disease. Sanger sequencing was performed to confirm the presence of detected variants. Results: Whole genome sequencing revealed three missense mutations in TMBTS patient: c.1042G > A in KCNH1, c.2131 T > C in STK36, and c.726C > A in ZNF517. According to all predictors, mutation in KCNH1 is damaging de novo mutation that results in substitution of Glycine by Arginine, i.e., p.(Gly348Arg). This mutation was already reported in a patient with ZLS that could affect the connecting loop between helices S4-S5 of KCNH1 with a gain of function effect. Conclusions: Our findings demonstrate that KCNH1 mutations cause TMBTS and expand the mutational spectrum of KCNH1 in TMBTS. In addition, all cases of TMBTS were reviewed and compared to ZLS. We suggest that the two syndromes are a continuum and that the variability in the phenotypes is the result of the involvement of genetic modifiers.
KW - KCNH1
KW - Temple-Baraitser syndrome
KW - Whole genome sequencing
KW - Zimmermann-Laband syndrome
UR - https://www.scopus.com/pages/publications/84973514547
U2 - 10.1186/s12881-016-0304-4
DO - 10.1186/s12881-016-0304-4
M3 - Article
C2 - 27282200
AN - SCOPUS:84973514547
SN - 1471-2350
VL - 17
JO - BMC Medical Genetics
JF - BMC Medical Genetics
IS - 1
M1 - 42
ER -