A surface extract of the aerial parts of <i>Salvia tingitana</i> afforded a nor-sesterterpenoid (<b>1</b>) and eight new sesterterpenoids (<b>2</b>-̵<b>9</b>), along with five known sesterterpenoids, five labdane and one abietane diterpenoid, one sesquiterpenoid, and four flavonoids. The structures of the new compounds were established by 1D and 2D NMR spectroscopy, HRESIMS, and VCD data and Mosher's esters analysis. The antimicrobial activity of compounds was evaluated against 30 human pathogens including 27 clinical strains and three isolates of marine origin for their possible implications on human health. The methyl ester of salvileucolide (<b>10</b>), salvileucolide-6,23-lactone (<b>11</b>), sclareol (<b>15</b>), and manool (<b>17</b>) were the most active against Gram-positive bacteria. The compounds were also tested for the inhibition of ATP production in purified mammalian rod outer segments. Terpenoids <b>10</b>, <b>11</b>, <b>15</b>, and <b>17</b> inhibited ATP production, while only <b>17</b> inhibited also ATP hydrolysis. Molecular modeling studies confirmed the capacity of <b>17</b> to interact with mammalian ATP synthase. A significant reduction of ATP production in the presence of <b>17</b> was observed in <i>Enterococcus faecalis</i> and <i>E. faecium</i> isolates.