This thesis is composed of two parts under a common theme of alkaloid synthesis. The first part describes the total syntheses of (±)-paniculidine B (1) and (±)-paniculidine C (2); the second part details our effort toward the synthesis of (±)-festuclavine and (±)-pibocin B. In the first part we used commercial available indole (21) as starting material, and selectively introduced an allyl group at the C-3 position of indole via the Tamaru allylation. Reduction of 20, followed by Somei oxidation afforded compound 18. The olefin cross metathesis between methallyl alcohol provided compound 17. The hydrogenation of 17 in THF with palladium on carbon accomplished the total synthesis of (±)-paniculidine B (1). On the other hand, compound 22 can also be synthesized from 3-allylindole 20 via the similar sequence to obtain (±)-paniculidine C (2). In the second part, compound 82 was synthesized from commercial available compound 45 through Tamaru allylation. Subsequent iodination by copper-catalyzed Finkelstein reaction and tosylation afforded compound 117. A model study revealed that 118a could be prepared via a 6-endo-trig free-radical cyclization. Next we investigated the feasibility of constructing the tetracyclic framework of ergot alkaloids, namely (±)-festuclavine (28) and (±)-pibocin B (32), via the free-radical cascade cyclization. In addition, compounds 126, 131, 134 and 136 could also be obtained by conducting olefin-cross metathesis of 125 with the corresponding substituted indoles and an indoline. Finally, the palladium-catalyzed cascade cyclization was systematically investigated as an alternative strategy to construct the ergot alkaloid skeleton.