Histatin-1 Levels in Smokers and Non-smokers With Periodontitis Patients: A Comparative Study Before and After Nonsurgical Periodontal Therapy (NSPT)

Periodontal disease is a chronic progressive destructive disease of the tissues supporting the teeth, collectively known as the periodontium. The main clinical parameters of periodontal diseases are clinical attachment loss , radiographic reduced alveolar bone height, probing depth and bleeding on probing. If untreated, teeth can be lost, but most cases can be prevented and treated . In recent definitions of periodontitis, smoking is considered the most important environmental risk factor. . Furthermore, The severity of periodontitis is directly influenced by the smoking habits of an individual and the number of cigarettes smoked per day. Smoking increases the risk of periodontitis , by compromising the host's immune response, thereby reducing the ability to combat periodontal pathogens. Additionally, it impairs the circulation of blood to periodontal tissues, which hinders healing processes and fosters an environment conducive to bacterial proliferation. These factors collectively contribute to enhanced inflammation, periodontal tissue destruction, and the accelerated progression of periodontal disease.

In general, Histatin, a group of histidine-rich proteins, exhibit diverse functions, including antifungal, bactericidal, and enamel-protective activities. Histatin-1 is a naturally occurring antimicrobial peptide found in human saliva, known for its role in oral health and immunity. It has garnered significant attention in the context of periodontal disease due to its multifaceted biological functions. Histatin-1 demonstrates significant antibacterial efficacy against many oral infections, involving bacteria, fungi, and viruses. In periodontal disease, pathogenic bacteria such as Porphyromonas gingivalis, Tannerella forsythia, and Treponema denticola play a critical role in disease progression. Histatin-1 disrupts the cell membranes of these pathogens, leading to their destruction and helping to maintain microbial balance in the oral cavity.

Histatin-1 has been shown to modulate inflammatory responses by inhibiting the production of pro-inflammatory cytokines, such as IL-6, IL-8, and TNF-α. Therefore, reducing tissue damage and promotes healing in periodontal tissues6. Histatin-1 plays a significant role in promoting the migration and proliferation of epithelial cells, which is crucial for the regeneration of periodontal tissues. It accelerates wound closure and tissue repair, making it a potential therapeutic agent for managing periodontal lesions and promoting periodontal regeneration.

Biofilm formation by pathogenic bacteria is a crucial determinant in the onset and progression of periodontal disease. Histatin-1 has been found to inhibit biofilm formation by interfering with bacterial adhesion and aggregation, this property helps prevent the colonization of pathogenic bacteria on tooth surfaces and periodontal tissues. Histatin-1 interacts with host immune cells, such as neutrophils and macrophages, enhancing their ability to combat infections. It also modulates the immune response to prevent excessive inflammation, which can lead to tissue destruction in periodontal disease. Furthermore, research has broadened the range of cell types responsive to histatin-1, demonstrating its capacity to stimulate osteogenic differentiation and facilitate mineralization in pre-osteoblasts, as well as mesenchymal cells sourced from tooth pulp and apical papilla. These findings offer fresh perspectives on the physiological significance of histatin-1's effects across diverse cell populations within the oral cavity. Given its antimicrobial, anti-inflammatory, and wound-healing properties, Histatin-1 is being explored as a potential therapeutic agent for periodontal disease. It could be incorporated into mouthwashes, gels, or local drug delivery systems to target periodontal pockets and promote oral health Non-surgical periodontal approach, including scaling and root surface debridement (RSD) as well as oral hygiene instructions, is the most effective treatment for periodontitis . The goal of the treatment is to eliminate the biofilm that has built up on the teeth surfaces ., supra and subgingival, and delay the recolonization of the sites by periodontopathogens. Studies indicate that these treatments can halt the progression of periodontitis in pockets ranging from shallow to moderate. Salivary biomarkers serve as valuable diagnostic and prognostic indicators for periodontal disease, as well as markers for monitoring the healing process .