1-En-4-yn-3-ol (I) can be easily synthesized from chalcone derivatives. This skeleton possesses a high reactivity toward acids and readily forms a highly conjugated carbocation through dehydration. Under Lewis acid conditions, nucleophile such as acetonitrile or trifluorosulfonamide is not able to trap the carbocation of enynol, but yielding a dimerized diendiyne product. Tosyl sulfonamide is found to be suitable for trapping the carbocation in the presence of sulfuric acid. The sulfonamide attacks at the secondary carbon site to form the 2-en-4-yn-1-amide skeleton (II) in a considerable yield. Without further purification, II undergoes 5-exo-dig alkyne cyclization reaction via the catalysis of silver acetate and triphenylphosphine to render 2-benzylidene-3-pyrroline (III) without the formation of any aromatized product 2-benzyl-pyrrole (IV). For the further synthetic transformations, mCPBA can react with the exocyclic double bond of 2-benzylidene-3-pyrrolines, resulting the C-C double bond cleavage, to furnish a α,β-unsaturated γ-lactam (V). 2-Benzyl-pyrroles IV can be easily generated from the aromatization of 2-benzylidene-3-pyrroline under acidic conditions. However, an unexpected tosyl migration was observed when 4-tosyl pyrrole (VI) was treated with boron trifluoride.