With the discovery of gastric acid and pepsin in the stomach, the questions about "why does the stomach not digest itself?", "how does the stomach preserve its normal integrity under the continuous exposure to lytic materials that are secreted?", and "how does the stomach resist against overwhelming Helicobacter pylori (H. pylori) infection or persistent nonsteroidal anti-inflammatory drugs (NSAID) administration?" had been raised. The discovery of "gastric mucosal barrier" or "the presence of defense system" might be the answers to these questions. The first level of gastric mucosal barrier consists of the factors secreted into the lumen including bicarbonates, mucus, immunoglobulins, other antibacterial substances including lactoferrin, and surface active phospholipids. The second level of defense system is the gastric epithelia, which are remarkably resistant to acids or irritants and forms relatively tight barrier to passive diffusion. In addition, the epithelium is capable of undergoing extremely rapid repair and restitution if its continuity is disrupted. The third level of gastric mucosal barrier is the mucosal microcirculation in concert with sensory afferent nerves within the mucosa and submucosa. Back diffusion of acid or toxin into the mucosa results in neural system-mediated elevations of calcitonin gene related peptide, which contribute to enhancing mucosal blood flows that are very critical for limiting damage and facilitating repair. The fourth level of defense is the mucosal immune system, consisting of mast cells and macrophage, which orchestrate an appropriate inflammatory response to challenge. All the above factors are known to contribute to orchestrated artwork of "gastric mucosal protection". In recent years, heat shock proteins (HSPs) have been implicated to be an additional factor utilized for the gastric defense mechanisms at the intracellular level. Certain HSPs are expressed under non-stressful conditions and play an important role in the maintenance of normal cell integrity, but HSPs are generally considered to improve cellular recovery both by either refolding partially damaged functional proteins or increasing delivery of precursor proteins to important organelles such as mitochondria and endoplasmic reticulum, through which HSPs might complete efficient mucosal defense mechanisms and achieve ulcer healing, mostly probably protecting key enzymes related to cytoprotection. In this review, role of each heat shock protein, HSP90, HSP70, HSP27, in gastric inflammation and gastric ulcer healing will be described with general roles of HSPs.