Satoshi Naganawa

Net positive charge of HIV-1 CRF01_AE V3 sequence regulates viral sensitivity to humoral immunity.

The third variable region (V3) of the human immunodeficiency virus type 1 (HIV-1) envelope gp120 subunit participates in determination of viral infection coreceptor tropism and host humoral immune responses. Positive charge of the V3 plays a key role in determining viral coreceptor tropism. Here, we examined by bioinformatics, experimental, and protein modelling approaches whether the net positive charge of V3 sequence regulates viral sensitivity to humoral immunity. We chose HIV-1 CRF01_AE strain as a model virus to address the question. Diversity analyses using CRF01_AE V3 sequences from 37 countries during 1984 and 2005 (n = 1361) revealed that reduction in the V3s net positive charge makes V3 less variable due to limited positive selection. Consistently, neutralization assay using CRF01_AE V3 recombinant viruses (n = 30) showed that the reduction in the V3s net positive charge rendered HIV-1 less sensitive to neutralization by the blood anti-V3 antibodies. The especially neutralization resistant V3 sequences were the particular subset of the CCR5-tropic V3 sequences with net positive charges of +2 to +4. Molecular dynamics simulation of the gp120 monomers showed that the V3s net positive charge regulates the V3 configuration. This and reported gp120 structural data predict a less-exposed V3 with a reduced net positive charge in the native gp120 trimer context. Taken together, these data suggest a key role of the V3s net positive charge in the immunological escape and coreceptor tropism evolution of HIV-1 CRF01_AE in vivo. The findings have molecular implications for the adaptive evolution and vaccine design of HIV-1.

Structural dynamics of HIV-1 envelope GP120 outer domain with V3 loop

Background The net charge of the hypervariable V3 loop on the HIV-1 envelope gp120 outer domain plays a key role in modulating viral phenotype. However, the molecular mechanisms underlying the modulation remain poorly understood. Methodology/Principal Findings By combining computational and experimental approaches, we examined how V3 net charge could influence the phenotype of the gp120 interaction surface. Molecular dynamics simulations of the identical gp120 outer domain, carrying a V3 loop with net charge of +3 or +7, showed that the V3 change alone could induce global changes in fluctuation and conformation of the loops involved in binding to CD4, coreceptor and antibodies. A neutralization study using the V3 recombinant HIV-1 infectious clones showed that the virus carrying the gp120 with +3 V3, but not with +7 V3, was resistant to neutralization by anti-CD4 binding site monoclonal antibodies. An information entropy study shows that otherwise variable surface of the gp120 outer domain, such as V3 and a region around the CD4 binding loop, are less heterogeneous in the gp120 subpopulation with +3 V3. Conclusions/Significance These results suggest that the HIV-1 gp120 V3 loop acts as an electrostatic modulator that influences the global structure and diversity of the interaction surface of the gp120 outer domain. Our findings will provide a novel structural basis to understand how HIV-1 adjusts relative replication fitness by V3 mutations.

Current HIV type 1 molecular epidemiology profile and identification of unique recombinant forms in Jakarta, Indonesia.

HIV infection is a major problem in Indonesia. The number of people living with HIV has been increasing from year to year, especially among injecting drug users (IDUs). Since there were only limited data about molecular epidemiology profiles of HIV/AIDS in Indonesia, a cross-sectional study involving 208 HIV-1-seropositive individuals was conducted in 2007 in Jakarta. The majority of participants were 16-30 years of age (64.9%) and 74.5% were male. The most frequent risk factor was injecting drug use (IDU) (45.7%) followed by heterosexual transmission (34.1%). Phylogenetic analysis of gag (p17 and p6) and env C2V3 regions showed 200 (96.2%) of 208 DNA samples were CRF01_AE and only 3 (1.4%) were subtype B. Five samples (2.4%) indicated discordant subtypes between the three aforementioned regions: three of them showed unique CRF01_AE/B recombination patterns in 2.3-kbp nucleotide sequences (from p17 to part of RT), including one sample showing similarity to CRF33_01B, reported previously in Malaysia. This study shows the current predominant subtype is CRF01_AE in every risk group, with a decreasing number of pure subtype B, and the first identification of CRF01_AE/B recombinant forms among HIV-1-seropositive Indonesians.

Presence of multiple HIV type 1 subtypes among mothers and children in Japan.

We collected blood samples from 70 HIV-1-infected pregnant women and 76 babies born to HIV-1-infected women in Japan, from 1989 to 1999. To analyze the genetic diversity of HIV-1 among mothers and children, we sequenced the C2-V3 regions of HIV-1 gp120. Phylogenetic tree analysis of these regions revealed that multiple HIV-1 subtypes, A, B, D, E, and G, were circulating among mothers and children in Japan. Thus, the genetic heterogeneity of HIV-1 among mothers and children in Japan is steadily increasing, although the number of cases remains small. Perhaps the longest term survivor, an 11-year-old child with a vertical HIV-1 subtype G infection in Japan, is one of our subjects.

Regulation of the susceptibility of HIV-1 to a neutralizing antibody KD-247 by nonepitope mutations distant from its epitope.

Objective:A humanized neutralizing antibody, KD-247, targets the V3 loop of HIV-1 Env. HIV-1 bearing the GPGR sequence at the V3 loop is potentially susceptible to KD-247. However, not all GPGR-positive HIV-1 isolates are neutralized by KD-247. We examined the potential mechanism by which the susceptibility of HIV-1 to KD-247-mediated neutralization is regulated. Design:We searched for nonepitope neutralization regulatory (NNR) mutations that sensitize GPGR-bearing HIV-1AD8 to KD-247 and mapped the locations of such mutations relative to the V3 loop. Methods:We generated a functional HIV-1AD8 Env library, and evaluated the viral susceptibility to KD-247 by measuring the half-inhibitory concentration (IC50) to KD-247 on TZM-bl cell assay. Results:We identified nine KD-247-sensitizing NNR mutations from 30 mutations in various regions of gp120, including the V1/V2 loop, C2, V3 loop, C4, and C5. They specifically affected KD-247-mediated neutralization, as they did not affect the b12-mediated neutralization. When combined, the KD-247-sensitizing NNR mutations additively sensitized the virus to KD-247 by up to 10 000 folds. The KD-247-sensitizing NNR mutations increased KD-247 binding to the virion. Notably, the NNR mutation in C4 coincides with the CD4-binding site of gp120. Conclusion:Given that most of the KD-247-sensitizing NNR mutations are remote from V3 loop, it is reasonable to hypothesize that the steady-state, local conformation of the V3 loop is regulated by the interdomain contact of gp120. Our mutational analysis complements crystallographic studies by helping provide a better understanding of the steady-state conformation and the functional geometry of Env.

Novel gas barrier films prepared by transfer printing method

We have developed transfer printing method to achieve flatter surface required for gas barrier film. We developed 2 types of thin gas barrier films by this method. One is gas barrier film with thinner substrate and the other is substrate less gas barrier film. Especially, substrate less barrier films total thickness is only 6μm and it showed high manufacturing process adaptability for OLED fabrication procedure with our encapsulation adhesive sheets. The substrate less barrier film (6 μm)/ adhesive sheet (12 μm) composite showed high flexibility, WVTR value did not change after 10,000 cycle of 4 mm diameter bending test. Besides, OLED device with the composite was demonstrated.