Abstract
The autosomal dominant monogenetic disease neurofibromatosis type 1 (NF1) affects approximately one in 3,000 individuals and is caused by mutations in the NF1 tumour suppressor gene, leading to dysfunction in the protein neurofibromin (Nf1)1,2. As a GTPase-activating protein, a key function of Nf1 is repression of the Ras oncogene signalling cascade. We determined the human Nf1 dimer structure at an overall resolution of 3.3 Å. The cryo-electron microscopy structure reveals domain organization and structural details of the Nf1 exon 23a splicing3 isoform 2 in a closed, self-inhibited, Zn-stabilized state and an open state. In the closed conformation, HEAT/ARM core domains shield the GTPase-activating protein-related domain (GRD) so that Ras binding is sterically inhibited. In a distinctly different, open conformation of one protomer, a large-scale movement of the GRD occurs, which is necessary to access Ras, whereas Sec14-PH reorients to allow interaction with the cellular membrane4. Zn incubation of Nf1 leads to reduced Ras-GAP activity with both protomers in the self-inhibited, closed conformation stabilized by a Zn binding site between the N-HEAT/ARM domain and the GRD–Sec14-PH linker. The transition between closed, self-inhibited states of Nf1 and open states provides guidance for targeted studies deciphering the complex molecular mechanism behind the widespread neurofibromatosis syndrome and Nf1 dysfunction in carcinogenesis.
Highlights
The ubiquitous Nf1 isoform-2 splice variant Nf1-23a (2839aa) is, together with Nf1 isoform 1, which lacks the 23a insertion (2818aa), one of the two biologically relevant alternative Nf1 isoforms
Homodimeric core of 27 ordered HEAT-repeats and four ARM-repeats forms the molecular framework into which the GTPase-activating protein-related domain (GRD), including its non-catalytic GAPex subdomain[13], and the membrane-associatedSec14-PH domain are centrally linked (Extended Data Fig. 4)
The linker between GRD and the Sec14-PH domain is in the closed conformation part of a Zn binding site, contributing a stabilising contact to the N-HEAT/ ARM core
Summary
Andreas Naschberger[1,2,4], Rozbeh Baradaran[1,4], Bernhard Rupp2,3 ✉ & Marta Carroni1 ✉. The cryo-electron microscopy structure reveals domain organization and structural details of the Nf1 exon 23a splicing[3] isoform 2 in a closed, self-inhibited, Zn-stabilized state and an open state. HEAT/ARM core domains shield the GTPase-activating protein-related domain (GRD) so that Ras binding is sterically inhibited. Zn incubation of Nf1 leads to reduced Ras-GAP activity with both protomers in the self-inhibited, closed conformation stabilized by a Zn binding site between the N-HEAT/ARM domain and the GRD–Sec14-PH linker. Homodimeric core of 27 ordered HEAT-repeats and four ARM-repeats forms the molecular framework into which the GRD, including its non-catalytic GAPex subdomain[13], and the membrane-associatedSec14-PH domain are centrally linked (Extended Data Fig. 4). The GRD and Sec14-PH domain extend out from the N-HEAT/ARM core, and
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