Abstract

Approximately 90% of new human immunodeficiency virus (HIV) infections are acquired through sexual contact. The development of safe, effective, and affordable topical microbicides for vaginal or rectal use could play a critical role in reducing HIV transmission rates worldwide. Clinical, epidemiological and molecular studies strongly support the role of herpes simplex virus (HSV) as a major cofactor for the transmission of HIV. Genital ulcers lead to breaks in the epithelial barrier and HSV induces the expression of pro-inflammatory cytokines that are known to enhance HIV replication. The goal of the proposed studies is to characterize the effects of sodium dimandelic acid ether (SAMMA) and its leading derivatives on HIV and HSV infection utilizing relevant biologic culture systems. SAMMA has excellent anti-mV and anti-HSV activity, while exhibiting no cytotoxicity in cell culture. While cell cultures may provide important information for the evaluation of microbicides, they may not adequately simulate events that occur in vivo. Human explant cultures (endocervical, ectocerivcal, vaginal and rectal), biologic fluids (cervicovaginal secretions and semen) and a mouse genital herpes model will be used in this Project to assess anatomic, physiologic, and immunologic factors that might impact on the activity of this novel class of compounds. Building on the in vitro cell culture data of Projects I, II and IV, the applicant will study the most active derivatives/isomers of SAMMA using biologic culture systems.
In Aim 1, the most active derivatives will be evaluated for efficacy against HIV-1 infection of primary macrophages using human genital tract fluids and mucosal explant cultures.
In Aim 2, mucosal explant cultures and a mouse model will be used to determine the efficacy of SAMMA to block HSV infection of epithelial cells. Inflammatory cells and cytokines will be measured to study the effects of SAMMA on the innate immune system (Aims 1,2 and 3). The interrelationship between HIV and HSV and the efficacy of SAMMA to inhibit dual infection will be studied in Aim 3. Efficacy and safety data in relevant biologic culture systems may provide compelling support for advancing SAMMA or one of its derivatives to clinical trials.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Program Projects (P01)
Project #
1P01HD041763-01
Application #
6553555
Study Section
Special Emphasis Panel (ZHD1)
Project Start
2001-09-26
Project End
2005-07-31
Budget Start
Budget End
Support Year
1
Fiscal Year
2001
Total Cost
Indirect Cost

  Institution

Name
Mount Sinai School of Medicine
Department
Type
DUNS #
114400633
City
New York
State
NY
Country
United States
Zip Code
10029

  Publications

Anderson, Robert A; Feathergill, Kenneth A; Chany 2nd, Calvin J et al. (2009) Nitric oxide-dependent human acrosomal loss induced by PPCM (SAMMA) and by nitric oxide donors occurs by independent pathways: basis for synthesis of an improved contraceptive microbicide. J Androl 30:168-82
Mesquita, Pedro M M; Wilson, Sarah S; Manlow, Philippe et al. (2008) Candidate microbicide PPCM blocks human immunodeficiency virus type 1 infection in cell and tissue cultures and prevents genital herpes in a murine model. J Virol 82:6576-84
Patel, Sarju; Hazrati, Ehsan; Cheshenko, Natalia et al. (2007) Seminal plasma reduces the effectiveness of topical polyanionic microbicides. J Infect Dis 196:1394-402
Anderson, Robert A; Feathergill, Kenneth A; Waller, Donald P et al. (2006) SAMMA induces premature human acrosomal loss by Ca2+ signaling dysregulation. J Androl 27:568-77
John, Minnie; Keller, Marla J; Fam, Ehsan H et al. (2005) Cervicovaginal secretions contribute to innate resistance to herpes simplex virus infection. J Infect Dis 192:1731-40
Chang, Theresa L; Vargas Jr, Jesus; DelPortillo, Armando et al. (2005) Dual role of alpha-defensin-1 in anti-HIV-1 innate immunity. J Clin Invest 115:765-73
Scordi-Bello, Irini A; Mosoian, Arevik; He, Cejiang et al. (2005) Candidate sulfonated and sulfated topical microbicides: comparison of anti-human immunodeficiency virus activities and mechanisms of action. Antimicrob Agents Chemother 49:3607-15
Keller, Marla J; Tuyama, Ana; Carlucci, Maria Josefina et al. (2005) Topical microbicides for the prevention of genital herpes infection. J Antimicrob Chemother 55:420-3
Cheshenko, Natalia; Keller, Marla J; MasCasullo, Veronica et al. (2004) Candidate topical microbicides bind herpes simplex virus glycoprotein B and prevent viral entry and cell-to-cell spread. Antimicrob Agents Chemother 48:2025-36
Keller, M J; Klotman, M E; Herold, B C (2003) Development of topical microbicides for prevention of human immunodeficiency virus and herpes simplex virus. Am J Reprod Immunol 49:279-84

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