posted on 2018-03-22, 19:46authored bySuzanne
M. Batiste, Jeffrey N. Johnston
The ion-mediated
Mitsunobu macrocyclooligomerization (M-MCO) reaction
of hydroxy acid depsipeptides provides small collections of cyclic
depsipeptides with good mass recovery. The approach can produce good
yields of a single macrocycle or provide rapid access to multiple
oligomeric macrocycles in good overall yield. While Lewis acidic alkali
metal salts are known to play a role in the outcome of MCO reactions,
it is unclear whether their effect is due to an organizational (e.g.,
templating) mechanism. Isothermal titration calorimetry (ITC) was
used to study macrocycle–metal ion binding interactions, and
this report correlates these thermodynamic measurements to the (kinetically
determined) size distributions of depsipeptides formed during a Mitsunobu-based
macrocyclooligomerization (MCO). Key trends have been identified in
quantitative metal ion-cyclic depsipeptide binding affinity (Ka), enthalpy of binding (ΔH), and stoichiometry of complexation across discrete series of macrocycles,
and they provide the first analytical platform to rationally select
a metal-ion template for a targeted size regime of cyclic oligomeric
depsipeptides.