TGF β 1 Expression Related Gene Polymorphism

Leprosy is one of the oldest human infectious diseases. It is a chronic infectious contagious, granulomatous disease caused by intracellular bacillus. Mycobacterium leprae, this chronic granulomatous disease presents symptoms that mainly affected the skin, the nervous system and the reticuloendothelial system, also other systems can be affected, such as the upper respiratory tract, bones and joints, eyes and adrenal glands. TGF- β is a pleiotropic cytokine that employs several functions on different types of cells. The effect of other cytokines may finally modulate the cellular response in the presence of TGF- β, causing a different effect depending on the activation state of the cell involved. In addition, TGF- β promotes the healing of inflamed tissue through the stimulation and regulation of extracellular matrix by fibroblasts, in addition to inducing the proliferation of endothelial cells required for angiogenesis. Thus, TGF- β is able to regulate the expression of other growth factors, increasing their level of activity.

The spectrum of clinical and histopathological manifestations reflects the immune response elicited by the microorganism in the host leprosy classified into polar groups: Lepromatous (LL) and Tuberculoid (TT); and borderline spectrum: Borderline Tuberculoid (BT), Borderline Borderline (BB) and Borderline Lepromatous (BL). This classification, proposed by Ridley and Jopling This classification widely used in clinical, immunological, microbiological, and histopathological aspects. While The World Health Organization classifies leprosy clinically as multibacillary and paucibacillary, according to the number of skin lesions and nerve involvement. In the tuberculoid form of leprosy (paucibacillary), the individual manifests an intense cell-mediated immune response that prevents proliferation of the bacillus, whereas the cell-mediated immune response is compromised in the lepromatous form (multibacillary) contributing to multiplication of the bacillus. In the intermediate forms,the patients exhibit characteristics that vary between the two types. Leprosy is measured the first disease to be categorized based on the host's immune response. The clinical symptoms of leprosy vary from one patient to another based on the spectrum of disease but more importantly on the type of host's immune response to the bacteria. Both innate and acquired immune responses have been associated with leprosy, but the disease is typically described by the side of a Th1/Th2 response. Patients with TT are decided by a relevant T-cell immune response, including interleukin-2 (IL-2), IL-4, IL-6, IL-10, interferon-γ (IFN-γ), tumor necrosis factor (TNF), and IL-17 and lymphotoxin, marked by some neural or cutaneous lesions with a few or no bacilli. Infected macrophages are activated by IFN- γ and clonal expansion of T cells is induced by IL-2 which, in turn, leads to an increase in IFN- γ production. Tumor necrosis factor alpha (TNF- α) also plays a role in the Th1 response. This cytokine contributes to the maintenance of this pattern and acts in synchronism with IFN- γ in the activation of infected macrphages, developing a significant mechanism for the maintenance of the cell-mediated immune response. In contrast, patients with LL show a superior humoral immune response, characterized by multiple lesions, elevated bacterial load, and reduced lymphocyte production develop a Th2 immune response characterized by intense production of transforming growth factor beta (TGF- β), IL-4, IL-5 and IL-10. These cytokines induce an incompetent immune response characterized by the high production of antibodies that apply no protective effect against the bacterium. IL-4 exerts an immunosuppressive effect that leads to an increase in bacterial proliferation and inhibits the proliferation of T cells and monocytes, the expression of CD14 on monocytes and the production of TNF- α, in addition to blocking the synthesis of nitric oxide which is essential for the destruction of intracellular microorganisms. In the 21st century, studies using modern genetic methods such as candidate gene association studies (CGASs) and genome wide association studies (GWASs) have gradually confirmed that the host genetic background play important role in the development of leprosy, and many leprosyassociated variants or genes have been reported. Most leprosy-associated genes are immune related, which is consistent with the finding that leprosy is caused by infection with pathogen. TGF β1 plays roles in the suppression of T cell responses, inhibiting both IFN γ and IL-2 expression, and has the ability to inhibit the lytic activity of macrophages by suppressing the production of intermediate oxygen-reactive and nitrogen-reactive factors, leading to the progression of infection. So, the production of TGF β1 by macrophages in LL and BL skin lesions, probably as part of the M. leprae evasion mechanism. Experimental studies on these pathogenic agents have demonstrated a role of TGF- β1 as a suppressor of macrophages. TGF-β1 production in lepromatous patients, which contributes to the anti-inflammatory situation and bacillary persistence observed