AIDSWEEKLY Plus; Monday, May 28, 2007
Staff Medical Writers

The findings, published in the April issue of AIDS Research and Human Retroviruses, could pave the way for the use of such peptides in gene therapy using HIV-based vectors as the delivery method.

“Although it may seem counterintuitive to value or even study a peptide that increases the ability of HIV-1 to enter a broad range of human cells, retroviral vectors are currently being explored as vehicles for gene therapy,” the authors wrote. “In this area, at least, agents that enhance retroviral uptake could contribute to an emerging field of medicine.”

“So many people have tried to deliver genes into different kinds of cells,” said study co-author Shen Pang, adjunct associate professor at the UCLA School of Dentistry and a member of the UCLA AIDS Institute. “If you know of some method that can enhance gene delivery, you would have a useful tool.”

Retrocyclin-1 (RC-100) is a circular peptide that has been shown in previous studies to inhibit the infection of CD4 cells with HIV. RC-111 is also cyclic and has the same amino acid sequence as retrocyclin-1. In both peptides, the amino acids are strung like 18 beads along the molecule’s backbone. The amino acids in RC-111, however, are in reverse order.

The researchers had initially wanted to quantify previous research by Dr. Robert I. Lehrer, distinguished professor of medicine in the division of infectious diseases at the David Geffen School of Medicine at UCLA and a co-author of the present study. Unexpectedly, the researchers discovered that while retrocyclin-1 inhibited infection of CD4 cells with HIV-1 by about 95 percent, the RC-111 variant enhanced viral infection five-fold.

There are three structural varieties of peptides, also known as defensins — alpha, beta and theta, Lehrer said. Humans have only alpha and beta; monkeys have all three.

“Here’s a peptide whose normal structure allows it to protect against viruses, yet if you make the same peptide and place its amino acids in a reverse order, that lets the virus in,” Lehrer said. “We would like to learn why it happens, but at the moment there’s no explanation for this paradoxical result.”

Still, the findings seem to show promise in gene therapy.

In addition to Pang and Lehrer, study researchers were Rose Q. Wang, Wei Wang, Junying Zheng, Sina Tabibian, Yimin Xie, Jun Song, Alan J. Waring, Robert Chiu, Otto O. Yang and Irvin S.Y. Chen.

Grants from the National Institutes of Health and the U.S. Department of Defense funded the study.

Established in 1992, the UCLA AIDS Institute is a multidisciplinary think-tank drawing on the skills of top-flight researchers in the worldwide fight against HIV/AIDS, the first cases of which were reported in 1981 by UCLA physicians. Institute members include researchers in virology and immunology, genetics, cancer, neurology, ophthalmology, epidemiology, social science, public health, nursing, and disease prevention. Their findings have led to advances in treating HIV, as well as other diseases, such as hepatitis B and C, influenza, and cancer.

Keywords: AIDS, Acquired Immunodeficiency Syndrome, Amino Acids, Biotechnology, Cancer Gene Therapy, Dentistry, Drugs, Genetics, Genomics, HIV, Human Immunodeficiency Virus, Pharmaceuticals, Treatment, Viral, Virology, University of California Los Angeles.

This article was prepared by AIDS Weekly editors from staff and other reports.

Reference

Wang Q, Wang W, Zheng J, et al., Paradoxical Effects of Two Theta-Defensins on HIV Type 1 Infection, AIDS Res Hum Retroviruses. 2007 Apr;23(4):508-14.

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