It is known that the somatosensory system plays an important role in executing precise and coordinated fine and gross movements. Proprioception, a submodality of the somatosensory system, refers to the awareness of body and limb position and movement. Proprioception is found to be significantly linked to human motor control, motor learning, and motor development. In light of such a reciprocal role of proprioception and motor functions, this paper discusses their relationships from a neural motor control perspective. The content of the paper is as follows: First, we introduce the terms proprioception and kinesthesia, their definitions, evaluations (e.g., active versus passive position and motion sense methods) and outcome measurements (e.g., proprioceptive sensitivity versus acuity) that are commonly used in the relevant studies. We refer to a theoretical framework (i.e., an internal model) that delineates the importance of proprioception on human motor control. Second, we review the available studies on the developmental course of proprioception, and its relation to different domains of motor skills in typically and atypically developing children (i.e., developmental coordination disorder). Furthermore, we provide empirical evidence on how motor learning could affect the proprioceptive and motor systems and what types of active proprioceptive-motor training (i.e., dance, yoga) could significantly enhance the body and limb proprioception and movements. The possible neural pathways that account for the mutual relationship of somatosensory and motor systems are also demonstrated. Finally, future directions with regard to the current topic on assessments, methodology, and training/intervention related to proprioceptive and motor systems are also delivered. This review paper synthesizes the available empirical evidence on somatosensory plasticity and motor functions, which could further provide suitable applications for assessments and intervention in research, clinical and educational settings.