A Synthetic, Small, Sulfated Agent Is a Promising Inhibitor of Chlamydia spp. Infection in vivo.

Karen M Gallegos,Kyle H Ramsey,Daniel J Rabulinski,Vaibhav Tiwari,Danielle E Girgis,Rosalinda Del Toro,Dapinder Jourha,Christopher R Taylor,Umesh R Desai

doi:10.3389/fmicb.2018.03269

Karen M Gallegos, Kyle H Ramsey + Show 7 more

Open Access

https://doi.org/10.3389/fmicb.2018.03269

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Abstract

Chlamydia is the most frequently reported sexually transmitted bacteria causing 2.9 million infections annually in the United States. Diagnosis, treatment, and sequelae of chlamydial disease cost billions of dollars each year in the United States alone. Considering that a heparin sulfate-like cell surface receptor is involved in Chlamydia infections, we reasoned that sulfated and sulfonated mimics of heparin sulfate would be useful in topical prophylactic prevention of Chlamydia. In this study, we tested a small, synthetic sulfated agent sulfated pentagalloyl glucoside (SPGG) and three synthetic sulfonated polymers PSS and SPS with average molecular weight in the range of 11 to 1000 kDa for inhibition against Chlamydia. Infection of HeLa cells with C. muridarum or C. trachomatis in the presence of increasing concentrations of SPGG or sulfonated polymers were quantified by immunofluorescence of Chlamydia inclusions. To determine whether in vitro pre-treatment of SPGG inhibits infection of C. muridarum, HeLa monolayers were incubated with SPGG-containing media, and then infected with Chlamydia. Our in vitro results show that SPGG pre-treatment inhibits Chlamydia infection in a dose-dependent manner. In addition, we further determined if SPGG treatment has an inhibitory effect during infection, therefore cell monolayers were infected with C. muridarum in the concurrent presence of SPGG. Our results show that SPGG inhibits C. muridarum infection with an IC50 at 10 μg/ml levels. We also tested the inhibitory effect of synthetic polymers PSS and SPS against Chlamydia and found inhibition of C. muridarum and C. trachomatis infections with IC50 ranging from 0.3 to 0.8 μg/ml. SPGG, PSS, and SPS inhibit formation of Chlamydia inclusions in a concentration-dependent manner. For evaluation of in vivo efficacy of the most effective agent in blocking C. muridarum, SPGG, we intravaginally pre-treated mice with SPGG before infection with C. muridarum. Cervical swabs were collected post-infection to quantify Chlamydia inclusions in vitro. Our in vivo data show that the SPGG-treated group has a statistically significant reduction of infection compared to the no-treatment control. Overall, our results show that SPGG could serve as a promising topical inhibitor for preventing Chlamydia infection.

Highlights

Chlamydia sp. are obligate intracellular pathogens and the most common sexually transmitted bacteria worldwide (World Health Organization [WHO], 2016)
We evaluated the anti-Chlamydia activities of a synthetic, small, sulfated agent called sulfated pentagalloyl glucoside (SPGG) with average molecular weight (MW) of 2.2 kDa, synthetic polymers called poly(sodium 4-styrene sulfonate; PSS) with average MW of 1000 kDa, poly(4-styrenesulfonic acid; PSS) with average MW of 75 kDa, and another synthetic polymer called polyanetholsulfonic acid sodium salt (SPS) with average MW of 11 kDa
To determine the anti-Chlamydia activity of the compounds tested in this study, we initially infected HeLa 229 cells with C. muridarum strains Nigg or Weiss or C. trachomatis in the presence of compounds in a dosage dependent manner

Summary

Introduction

Chlamydia sp. are obligate intracellular pathogens and the most common sexually transmitted bacteria worldwide (World Health Organization [WHO], 2016). Recommended antibiotic treatment for Chlamydia infections is generally effective and antibiotic resistance is far rare (Sandoz and Rockey, 2010), most of the infected patients are unlikely to seek treatment. This is because 70 to 90% of Chlamydia infections in women and >50% in men are asymptomatic (Centers for Disease Control and Prevention [CDC], 2017). Untreated Chlamydia infections often cause serious sequelae and complications that lead to infertility (Haggerty et al, 2010; Darville, 2013; Centers for Disease Control and Prevention [CDC], 2017). Several efforts have been made in public health programs to improve screening and medical treatment to control Chlamydia, the incidence of Chlamydia infection has increased (Rekart and Brunham, 2008; World Health Organization Library [WHO], 2012)

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