Stress exposure contributes to the development of drug and alcohol use disorders. In animal models, stress exacerbates escalations in alcohol consumption in alcohol-dependent animals. The nucleus of the solitary tract (NTS) is a critical brainstem region for integrating and relaying peripheral signals to regulate stress responses. To define the molecular adaptions within this brain region that may contribute to stress-induced alcohol drinking, we exposed animals to chronic intermittent bouts of ethanol vapor (CIE), forced swim stress (FSS), or both (CIE + FSS) and then transcriptionally profiled the NTS at three different timepoints after the last vapor exposure (0-hr, 72-hr, and 186-hr). We identified interferon (IFN) signaling as a critical gene network correlated with alcohol consumption levels. Using a likelihood ratio test, we identified genes that were differentially expressed across time and between groups. Clustering analysis of these genes to identify unique expression patterns identified a subset of genes that fail to normalize in the CIE + FSS group, but not the others. These genes were enriched for cell-to-cell interaction and cellular movement pointing to long-term structural and functional changes in this brain region caused by the unique interaction of alcohol dependence and stress. Specific genes of interest identified in this group include Aqp4, Il16, Reln, Grm4, Gabrd, and Gabra6. We also compared gene expression changes in the NTS to the PFC and found a significant overlap of genes between the two brain regions. Overlapping NTS/PFC genes in the CIE + FSS group were enriched for type I IFN signaling. Finally, we tested the hypothesis that activation of type I IFN signaling increases alcohol consumption based on the three lines of evidence identifying type I IFN signaling as critical for escalations in alcohol intake. Mice treated with recombinant IFNβ showed significantly elevated levels of alcohol intake in a two-bottle choice procedure compared to saline-treated controls. Overall, these results define the transcriptomic changes across time in the NTS that may be critical to the development of stress-induced increases in alcohol consumption and alcohol dependence.