Background Accumulating evidence suggests that the gut microbiome is associated with asthma. However, altered gut microbiome in adult asthma is not yet well established. We aimed to investigate the gut microbiome profiles of adult asthmatic patients with symptomatic eosinophilic inflammation. Methods The 16 s rRNA gene metagenomic analysis of feces in the symptomatic eosinophilic asthma group (EA, n = 28) was compared with the healthy control (HC, n = 18) and the chronic cough control (CC, n = 13). A correlation analysis between individual taxa and clinical markers was performed within the EA group. Changes in the gut microbiome were examined in patients with significant symptom improvement in the EA group. Results The relative abundances of Lachnospiraceae and Oscillospiraceae significantly decreased and Bacteroidetes increased in the EA group. Within EA group, Lachnospiraceae was negatively correlated with indicators of type 2 inflammation and lung function decline. Enterobacteriaceae and Prevotella was positively associated with type 2 inflammation and lung function decline, respectively. The abundance of predicted genes associated with amino acid metabolism and secondary bile acid biosynthesis was diminished in the EA group. These functional gene family alterations could be related to gut permeability, and the serum lipopolysaccharide concentration was actually high in the EA group. EA patients with symptom improvement after 1 month did not show a significant change in the gut microbiome. Conclusions Symptomatic eosinophilic adult asthma patients showed altered the gut microbiome composition. Specifically, a decrease in commensal clostridia was observed, and a decrease in Lachnospiraceae was correlated with blood eosinophilia and lung function decline. Type 2 asthma alters the composition of major taxa of the gut microbiome, especially causing a decrease in commensal clostridia. Within type 2 asthma, Lachnospiraceae negatively correlates with indicators of type 2 inflammation and lung function decline. In contrast, pathobiont and Prevotella are positively associated, respectively. According to functional gene predictions, microbial metabolites are diminished and LPS production increases.Abbreviations: LDA, linear discriminant analysis; LPS, lipopolysaccharide; OVA, ovalbumin