Novel self-regulation strategy of a small heat shock protein for prodigious and rapid expression on demand

In this mini-review, we summarize the known and novel regulation mechanisms of small heat shock proteins (sHsps). sHsps belong to a well-conserved family of ATP-independent oligomeric chaperones that protect denatured proteins from forming irreversible aggregates by co-aggregation. The functions of sHsps as a first line of defense against acute stresses require the high abundance of sHsps on demand. The heat stress-induced expression of IbpA, one of the sHsps in Escherichia coli, is regulated by σ32, an RNA polymerase subunit, and the thermoresponsive mRNA structures in the 5' untranslated region, called RNA thermometers. In addition to the known mechanisms, a recent study has revealed unexpected processes by which the oligomeric IbpA self-represses the ibpA translation via the direct binding of IbpA to its own mRNA, and mediates the mRNA degradation. In summary, the role of IbpA as an aggregation-sensor, combined with other mechanisms, tightly regulates the expression level of IbpA, thus enabling the sHsp to function as a "sequestrase" upon acute aggregation stress, and provides new insights into the mechanisms of other sHsps in both bacteria and eukaryotes.