The ability of a series of nitrogen-substituents to activate the cycloaddition photochemistry
of indoles has been examined; the N-substituents were chosen in order to enable their removal following cycloaddition
under mild neutral, acidic or basic conditions. N-Substituted indoles, 1a-g, were prepared in which the N-substituent is COPh, CO2Et, CO2CH2CH2SiMe3, CO2CH2CH2CN, CO2Bu-t, CO2Ph, and CO2CH2Ph, respectively. Under direct irradiation with ultraviolet light the photochemical
cycloaddition reaction of compounds 1a-g with cyclopentene yields cyclobutane fused indolines resulting from bonding of the
alkene termini to the 2- and 3-positions of the indole. The reaction proceeds with
chemical yields in the range 32%-80% and photochemical efficiencies in the range
0.00028-0.054. When the reaction is sensitized with acetophenone the chemical yields
are raised to 64-95%. This improvement arises from avoidance of competing singlet
excited state derived photo-Fries rearrangement. The silyl ethoxycarbonyl group of
photoadducts derived from 1c can be removed by treatment of the adduct with fluoride ion in dichloromethane,
the tert-butyloxycarbonyl group of adducts derived from 1e by treatment with trifluoroacetic acid at room temperature, the benzyloxycarbonyl
group of adducts derived from 1g by hydrogenolysis, and the cyanoethoxycarbonyl group of adducts derived from 1d with alcoholic carbonate at room temperature. All of these deprotection reactions
proceed in very high yield. Removal of the phenoxycarbonyl group of adducts derived
from 1f and the ethoxycarbonyl group of adducts derived from 1b required treament with hot concentrated base and the yields were lower, while the
benzoyl group of adducts derived from 1a was stable to hot concentrated acid or base and could be removed only by treatment
with lithium aluminum hydride.
