Meckel-Gruber Syndrome: An update on diagnosis, clinical management, and research advances
Meckel-Gruber Syndrome: An update on diagnosis, clinical management, and research advances
Meckel-Gruber syndrome (MKS) is a lethal autosomal recessive congenital anomaly syndrome caused by mutations in genes encoding proteins that are structural or functional components of the primary cilium. Conditions that are caused by mutations in ciliary genes are collectively termed the ciliopathies, and MKS represents the most severe condition in this group of disorders. The primary cilium is a microtubule-based organelle, projecting from the apical surface of vertebrate cells. It acts as an "antenna" that receives and transduces chemosensory and mechanosensory signals, but also regulates diverse signaling pathways, such as Wnt and Shh, that have important roles during embryonic development. Most MKS proteins localize to a distinct ciliary compartment called the transition zone (TZ) that regulates the trafficking of cargo proteins or lipids. In this review, we provide an up-to-date summary of MKS clinical features, molecular genetics, and clinical diagnosis. MKS has a highly variable phenotype, extreme genetic heterogeneity, and displays allelism with other related ciliopathies such as Joubert syndrome, presenting significant challenges to diagnosis. Recent advances in genetic technology, with the widespread use of multi-gene panels for molecular testing, have significantly improved diagnosis, genetic counseling, and the clinical management of MKS families. These include the description of some limited genotype-phenotype correlations. We discuss recent insights into the molecular basis of disease in MKS, since the functions of some of the relevant ciliary proteins have now been determined. A common molecular etiology appears to be disruption of ciliary TZ structure and function, affecting essential developmental signaling and the regulation of secondary messengers.
Hartill, V.
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Szymanska, K.
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Sharif, S.M.
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Wheway, G.
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Johnson, C.A.
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20 November 2017
Hartill, V.
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Szymanska, K.
c2757637-5dba-453e-9fc6-718089332294
Sharif, S.M.
8041a1eb-60f0-442c-bb11-6497503a1725
Wheway, G.
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Johnson, C.A.
df0d7b97-7463-4bb6-856f-b3bc1249b106
Hartill, V., Szymanska, K., Sharif, S.M., Wheway, G. and Johnson, C.A.
(2017)
Meckel-Gruber Syndrome: An update on diagnosis, clinical management, and research advances.
Frontiers in Pediatrics, 5 (244), [244].
(doi:10.3389/fped.2017.00244).
Abstract
Meckel-Gruber syndrome (MKS) is a lethal autosomal recessive congenital anomaly syndrome caused by mutations in genes encoding proteins that are structural or functional components of the primary cilium. Conditions that are caused by mutations in ciliary genes are collectively termed the ciliopathies, and MKS represents the most severe condition in this group of disorders. The primary cilium is a microtubule-based organelle, projecting from the apical surface of vertebrate cells. It acts as an "antenna" that receives and transduces chemosensory and mechanosensory signals, but also regulates diverse signaling pathways, such as Wnt and Shh, that have important roles during embryonic development. Most MKS proteins localize to a distinct ciliary compartment called the transition zone (TZ) that regulates the trafficking of cargo proteins or lipids. In this review, we provide an up-to-date summary of MKS clinical features, molecular genetics, and clinical diagnosis. MKS has a highly variable phenotype, extreme genetic heterogeneity, and displays allelism with other related ciliopathies such as Joubert syndrome, presenting significant challenges to diagnosis. Recent advances in genetic technology, with the widespread use of multi-gene panels for molecular testing, have significantly improved diagnosis, genetic counseling, and the clinical management of MKS families. These include the description of some limited genotype-phenotype correlations. We discuss recent insights into the molecular basis of disease in MKS, since the functions of some of the relevant ciliary proteins have now been determined. A common molecular etiology appears to be disruption of ciliary TZ structure and function, affecting essential developmental signaling and the regulation of secondary messengers.
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fped-05-00244
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Accepted/In Press date: 2 November 2017
e-pub ahead of print date: 20 November 2017
Published date: 20 November 2017
Identifiers
Local EPrints ID: 423509
URI: http://eprints.soton.ac.uk/id/eprint/423509
ISSN: 2296-2360
PURE UUID: 8c79f32f-8216-4199-80ea-23cd7bbeccd8
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Date deposited: 25 Sep 2018 16:30
Last modified: 16 Mar 2024 04:38
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Author:
V. Hartill
Author:
K. Szymanska
Author:
S.M. Sharif
Author:
C.A. Johnson
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