Pathogenic fungi, as an increasing global threat to human health, represent a sizable risk. However, significant attention should also be paid to the yeast biofilms. One promising strategy for combating resistant microbes, as well as fungal biofilms, is to extend the lifespan and efficacy of our currently employed drugs by using combination therapy. Since the application of combined therapy of fungal infections is currently accepted, we have decided to verify the efficacy of derivative H in combination with fluconazole on C. albicans biofilm. The main advantage of synergy over monotherapy lies in reducing or even completely preventing the induction of resistance of fungal cells. We have decided to verify the derivative H (1,4-dihydropyridine-2,3,5-tricarboxylate), an intermediate of nilvadipine synthesis, in the resistance of C. albicans to fluconazole. Therefore, we have focused on the influence of derivative H on the gene expression of the main C. albicans adhesin (ALS3), which is important for the tissue colonization during the infection process. Our results show that the newly synthesized derivative H had an impact on biofilm eradication. The effect of biofilm diminution could, therefore, be explained as derivative H preventing the adherence of C. albicans cells. This study supports even more the attractiveness of this substance as a potential agent that could be used in synergy with commonly used azoles to treat various fungal infections.