The human secretory leukocyte protease inhibitor (SLPI) gene encodes an 11.

The human secretory leukocyte protease inhibitor (SLPI) gene encodes an 11. and increased activity of elastase which degraded tissue [5]. Found in various bodily secretions including seminal plasma cervical mucus breast milk tears saliva and bronchial secretions [2] SLPI appears to be a component of the innate host defense that maintains a balance between protective inflammatory responses and uncontrolled inflammation that can lead to tissue destruction and failure to heal [6]. Along with these Rabbit polyclonal to BZW1. properties SLPI protein possesses broad-spectrum antimicrobial activity [7 8 It has been shown to be active against Gram-positive and Gram-negative bacteria viruses including human immunodeficiency computer virus-1 and herpes simplex viruses and some fungi [1 7 9 In terms of preventing HIV transmission SLPI blocks the conversation of the virus with the annexin II receptors on human macrophage cells [16]. In addition it has been suggested that this cationic nature of SLPI allows it to disrupt the anionic plasma membanes of many bacteria. SLPI is also considered an antimicrobial ‘defensin-like’ peptide because its expression is usually upregulated by MK-1775 supplier ‘alarm signals’ such as bacterial lipopolysaccharides as well as cytokines such as interleukin-1 and tumor necrosis factor [1]. Thus SLPI plays a role in anti-inflammatory anti-proteolytic and antimicrobial mechanisms in our body which makes it an attractive applicant for many sorts of therapy. It really is difficult to grasp how such a little proteins can afford a lot of diverse features. The SLPI framework has been proven to resemble a boomerang using the ends developing the N-terminal and C-terminal domains [17]. Within the crystal each area is certainly stabilized by four disulfide bonds with similar bridging patterns [17 18 The protease inhibitory activity of SLPI provides been shown to become situated in the C-terminal area while its antimicrobial activity resides in its N-terminal area [19 20 Even though proteins is secreted with the cell it isn’t glycosylated. General SLPI does not have any MK-1775 supplier hydrophobic core possesses little hydrogen-bonded supplementary structure [21]. As the indigenous proteins is found on the physiological focus of 4?24 μg/ml in saliva recombinant expression must make sufficient amounts for detailed biochemical characterization and biomedical applications. E. coli has previously been utilized as a host for heterologous production of recombinant SLPI which is commercially available (R&D systems Minneapolis MN). This recombinant SLPI has been used for both structure-function studies and therapeutic applications [8 11 22 23 Clinical trials have been carried out with the bacterial-produced SLPI to investigate its ability to accelerate wound healing [24]. Recently recombinant SLPI has been tested as a treatment for inflammatory lung conditions ischemia/reperfusion injury in cardiac transplantation and tuberculosis [12 22 25 Although SLPI can be produced in E. coli potential contamination with LPS limits its use in anti-HIV studies because the bacterial endotoxin alone suppresses HIV contamination [26]. In addition expression of the disulfide rich protein in E. MK-1775 supplier coli results in a non-native inactive product that requires reductive denaturation and oxidative refolding to recover the native active conformation [19 27 28 contributing to its high cost (245 dollars per 100 μg). Some contradictory findings on SLPI by different research groups have also been attributed to variations in the preparation of the bacterially-produced peptide [15 29 30 Issues have been raised about the possibility that oxidation of the recombinant protein may impact its biological activity [31]. In one statement the abilitiy of recombinant SLPI to reduce HIV-1 infectivity in differentiated human monocytic THP-1 cells depended on its source [32]. MK-1775 supplier These issues associated with recombinant SLPI synthesized in bacteria indicate a need for an alternative expression host which is able to consistently provide SLPI in its native conformation at a reasonable cost. Insect cell culture has been used to prepare biologically active SLPI; however it is usually a rather expensive host system with relatively poor yields [33]. We have chosen to develop the methylotrophic.