Introduction: Impulse control disorders (ICDs) represent a side effect of dopaminergic medication in Parkinson's disease (PD). Patients experience an excessive desire toward natural rewards paired with uncontrolled actions. Yet, the precise neural and behavioral mechanisms associated with ICDs and, importantly, each specific subdomain remain unclear. We aim to decipher resting-state and corticolimbic functional connectivity in PD patients with and without hypersexual ICD. Materials and Methods: Seventeen PD patients with hypersexuality (PD+HS) and 15 PD patients without hypersexuality (PD-HS) underwent two sessions (with and without medication) of resting-state functional magnetic resonance imaging and were compared with 17 healthy controls. Dual-regression independent component analyses extracted salience, sensorimotor, default-mode, and central executive networks. Seed-based functional connectivity with three striatal subdivisions (motor, associative, and limbic) was obtained and significant changes were correlated with key impulsivity and inhibitory measures. Results: Enhanced salience network (SN) activity represented by a significant rise in the right inferior frontal gyrus was found in PD+HS compared with PD-HS. Connectivity analyses revealed a functional disconnection between associative and limbic striatum with precuneus and superior parietal lobe in PD+HS, some connections explained by abnormal sexual behavior and inhibition in PD+HS. Conclusions: Hypersexual ICD is associated with enhanced SN signaling and corticolimbic disconnections, including striatal associative and limbic loops that contribute to altered control of sexually driven behavior and overall severity in PD and ICD. Impact statement We enlarge the neurobiological basis to one specific Parkinson's disease (PD) and impulse control disorder (ICD) (PD+ICD) subtype-that is, hypersexuality-and reveal its associated resting-state functional connectivity linked to altered behavior. We report enhanced salience network and right inferior frontal gyrus as part of the underlying resting-state functional networks in PD patients with hypersexuality (PD+HS). Corticolimbic changes were associated with sexual severity in PD+HS to hypoactive connectivity between associative-limbic striatum with precuneus and superior parietal lobe. The connectivity changes seen in PD+HS could explain baseline differences that engender aberrant control over sexual behavior in ICD.