Abstract
Multiple lentigines/LEOPARD syndrome (LS) is a rare, autosomal dominant disorder characterized by Lentigines, Electrocardiogram abnormalities, Ocular hypertelorism, Pulmonic valvular stenosis, Abnormalities of genitalia, Retardation of growth, and Deafness. Like the more common Noonan syndrome (NS), LS is caused by germ line missense mutations in PTPN11, encoding the protein-tyrosine phosphatase Shp2. Enzymologic, structural, cell biological, and mouse genetic studies indicate that NS is caused by gain-of-function PTPN11 mutations. Because NS and LS share several features, LS has been viewed as an NS variant. We examined a panel of LS mutants, including the two most common alleles. Surprisingly, we found that in marked contrast to NS, LS mutants are catalytically defective and act as dominant negative mutations that interfere with growth factor/Erk-mitogen-activated protein kinase-mediated signaling. Molecular modeling and biochemical studies suggest that LS mutations contort the Shp2 catalytic domain and result in open, inactive forms of Shp2. Our results establish that the pathogenesis of LS and NS is distinct and suggest that these disorders should be distinguished by mutational analysis rather than clinical presentation.
Highlights
LEOPARD syndrome (LS) Mutations Are Catalytically Inactive—In contrast to Noonan syndrome (NS) mutations, which are scattered throughout the Shp2 molecule, LS mutants are confined to the protein-tyrosine phosphatase (PTP) domain [11, 12, 23] (Figs. 1, B–D)
Shp2 Tyr-279 is cognate to Tyr-46 in PTP1B, which sets the depth of the catalytic cleft and, confers specificity for phosphotyrosine-containing substrates [24]
Produced LS mutant proteins have markedly decreased PTP activity when assayed against standard artificial substrates
Summary
Dominant Negative Shp Mutants Cause LEOPARD Syndrome by PTPN11 mutations, they have been viewed as overlap syndromes [1]. We examined the enzymatic properties of LS mutants and their effects on receptor-tyrosine kinase signaling. Despite its phenotypic and genetic similarities to NS, we found that LS is caused by catalytically defective, loss-of-function mutations in PTPN11
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