MicroRNAs (miRNAs) are considered as an integral part of plant stress regulatory networks. However, limited research has been conducted on the heat-responsive miRNAs. In this study , microarray analyses were used to examine the changes of gene profile under heat stress. Two groups of genes responding to heat stress were obtained, and they were targeted by miR164 and miR173, respectively. Quantitative RT-PCR and northern blotting reveal that the amount of miR164 was accumulated when plants were treated with heat stress, whereas its target genes CUC1, CUC2, NAC1, ANAC092, and At3g12977 were repressed. However, the expression of miR173 was reduced by heat treatment, and two of its target genes, At4g29770 and At5g18040, were induced upon heat treatment. In the phenotypic analyses, mir164a T-DNA insertion lines were more sensitive to heat than wild-type plant in the long-term heat stress. In addition, the expression of HSP21 and HSP17.6 was reduced in mir164a and mir164b T-DNA lines compared to those in wild-type plant after heat treatment. Contrary to miR164 responses, miR173 overexpression lines were more sensitive to heat stress than wild-type. But, HSPs expression showed no significantly different between miR173 transgenics and wild-type. Taken together, miR164 and miR173 were involved in heat tolerance either through regulating HSPs or specific target genes in an unknown pathway.