To test the hypothesis that thalamic midline nuclei play a transient role in memory consolidation, we reanalyzed a prospective functional MRI study, contrasting recent and progressively more remote memory retrieval. We revealed a transient thalamic connectivity increase with the hippocampus, the medial prefrontal cortex (mPFC), and a parahippocampal area, which decreased with time. In turn, mPFC-parahippocampal connectivity increased progressively. These findings support a model in which thalamic midline nuclei serve as a hub linking hippocampus, mPFC, and posterior representational areas during memory retrieval at an early (2 h) stage of consolidation, extending classical systems consolidation models by attributing a transient role to midline thalamic nuclei.The standard model of systems consolidation (e.g., Alvarez and Squire 1994) describes an initial stage in which the hippocampus binds together distributed neocortical representations during retrieval of recent memories. These neocortical representations code event features that are located in sensory-specific and multimodal representational areas in posterior parts of the brain, which are engaged during initial encoding. With consolidation, interconnectivity between these representational areas stabilizes, allowing retrieval of remote memories to be hippocampally independent. Accumulating evidence from animal and human work has extended this view by showing evidence for medial prefrontal cortex (mPFC) involvement during remote memory retrieval (Bontempi et al. 1999;Takashima et al. 2006; TakeharaNishiuchi and McNaughton 2008). The mPFC appears interacting with posterior representational areas during retrieval of remote memories (Frankland and Bontempi 2005), potentially binding them together (Takashima et al. 2006;Wheeler et al. 2013).The systems-level processes underlying this transition from a hippocampally to a neocortically dependent memory are not well understood, though there seems evidence for a hippocampalmPFC interaction underlying this process (van Kesteren et al. 2010). However, rodent hippocampal-mPFC fibers are unidirectional and rather unevenly distributed over the hippocampus (Vertes et al. 2007;Hoover and Vertes 2012) and thus, an indirect interaction appears necessary if a bidirectional information flow between mPFC and hippocampus is required during systems consolidation. The rat's thalamic midline structures (nucleus reuniens/rhomboid nucleus) are reciprocally connected to both the mPFC and hippocampus as well as to posterior representational areas (Aggleton and Brown 1999;Van der Werf et al. 2002;Vertes et al. 2006Vertes et al. , 2007Hoover and Vertes 2012;Cassel et al. 2013;Wheeler et al. 2013) that seems also evident in nonhuman primates (Amaral and Cowan 1980;DeVito 1980;Aggleton et al. 1986Aggleton et al. , 2011Hsu and Price 2007). Indeed, the nucleus reuniens acts as a hippocampal-mPFC relay during memory encoding in mice determining specificity/generalization of memory attributes (Xu and SĂŒdhof 2013). The nucleus reuniens seems als...