Basis of the intrinsic flexibility of the Cε3 domain of IgE

S Borthakur, G Andrejeva, JM McDonnell - Biochemistry, 2011 - ACS Publications
S Borthakur, G Andrejeva, JM McDonnell
Biochemistry, 2011ACS Publications
Allergic reactions are triggered by the interaction between IgE and its high-affinity receptor,
FcεRI. Various studies have mapped the interaction surface between IgE and its cellular
receptors to the third constant domain of IgE (Cε3). The isolated Cε3 domain has been
shown to exist as a molten globule, and the domain retains significant flexibility within the
context of the IgE protein. Here we have analyzed the structural basis of the intrinsic
flexibility of this domain. We have compared the sequence of the Cε3 domain to the …
Allergic reactions are triggered by the interaction between IgE and its high-affinity receptor, FcεRI. Various studies have mapped the interaction surface between IgE and its cellular receptors to the third constant domain of IgE (Cε3). The isolated Cε3 domain has been shown to exist as a molten globule, and the domain retains significant flexibility within the context of the IgE protein. Here we have analyzed the structural basis of the intrinsic flexibility of this domain. We have compared the sequence of the Cε3 domain to the sequences of other members of the C1 subset of the immunoglobulin superfamily and observed that Cε3 has an unusually high electrostatic charge and an unusually low content of hydrophobic residues. Mutations restoring Cε3 to a more canonical sequence were introduced in an attempt to derive a more structured domain, and several mutants display decreased levels of disorder. Engineered domains of Cε3 with a range of structural rigidities could serve as important tools for the elucidation of the role of flexibility of the Cε3 domain in IgE’s biological functions.
ACS Publications