Lewis acid-promoted cyclization reactions of cyclic six-membered ring 1-yne-ynamides , ynamide-tethered furans and cyclohexene-yne-ynamides afforded spiro[3.5]nonanes, pyrroles and γ-lactams, respectively. （1）The iron(III) bromide-promoted cyclization of six-membered ring 1-yne-ynamides provided brominated spiro[3.5]nonane derivatives. The reaction mechanism was suggested to proceed via a N- to C- allyl transfer followed by aza-Prins cyclization generated spiro[3.5]nonane derivatives. The reaction had several advantages: inexpensive iron (III) bromide and short reaction times.Imines were also formed via a cumulenen intermediate followed by [2 + 2] cyclization. （2）The gold(III) chloride-catalyzed intramolecular cyclization reaction of ynamide-tethered furans afforded 3-aryl-substituted-4-(3-oxopropen-1-yl)pyrroles in good yields. The advantages of this reaction are mild reaction conditions and short reaction times. （3）The indium(III) chloride-promoted intramolecular cyclization of alkyl or aryl-substituted cyclohexene-yne-ynamides under nitrogen afforded γ-lactams. The reaction mechanism was suggested to proceed via a keteniminium intermediate, generating γ-lactams. The advantages of this reaction are operationally simple, mild reaction conditions and easily available of starting materials.