Ruthie Coffey scite author profile

HIV-1 is classified into three groups, M (major), N (non-M non-O), and O (outlier); each group arose from a separate transmission of SIVcpz into humans. HIV-1 group N was recently discovered and infections with this virus are rare with only eight documented cases. All group N infections have been found in Cameroon and there is no evidence of direct linkage between the infected patients. We report here the identification of HIV-1 group N infections in a husband and wife. The group N infection in the husband, 1131-03, was identified first based on seroreactivity in peptide EIAs and confirmed by PCR amplification of group N viral sequences. Subsequently the wife, 1015-04, was evaluated and confirmed to also be infected with a group N virus. Near full-length viral genomes were amplified and sequenced from each patient's specimen. The low level of diversity between the two viral sequences provides evidence of horizontal transmission of group N from one spouse to the other. Patient 1131-03 was receiving antiviral therapy consisting of reverse transcriptase inhibitors; the treatment appears effective for suppression of group N viral replication based on apparently low viral load in plasma specimens collected from the patient and the absence of drug resistance mutations in RT sequences amplified from 1131-03. This report brings to 10 the number of group N infections identified and to 5 the number of group N genomes sequenced. Although group N infections continue to be rare, group N is a pathogenic virus and its prevalence needs to be monitored.

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Identification and Genomic Sequence of an HIV Type 1 Group N Isolate from Cameroon

Bodelle

Vallari

Coffey

et al. 2004

AIDS Research and Human Retroviruses

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HIV-infected plasma specimens, collected in Cameroon between 1999 and 2002, were screened for HIV-1 group N and SIVcpz infections using a serological screening algorithm based on immunoassays with antigens derived from HIV-1 group M, N, and O, and SIVcpz strains. Specimens with reactivity to group N and SIVcpz antigens were characterized by RT-PCR and sequence analysis to identify the infecting virus. Although several specimens were serotyped as potential group N or SIVcpz infections, only one group N infection was confirmed. The specimen, 02CM-DJO0131, was collected in 2002 from a hospital patient at the D'Joungolo Hospital, Yaoundé. The virus genome was amplified as seven overlapping fragments comprising 8938 nucleotides. Phylogenetic analysis shows that 02CM-DJO0131 branches with group N sequences. With this study, three near full-length sequences are now available for group N. While we confirm the presence of group N in the Cameroonian population, group N infections continue to be rare and difficult to identify.

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HIV Infections in Northwestern Cameroon: Identification of HIV Type 1 Group O and Dual HIV Type 1 Group M and Group O Infections

Yamaguchi

Bodelle

Vallari

et al. 2004

AIDS Research and Human Retroviruses

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HIV-1 strain diversity was examined in a study population that consisted of hospital and clinic patients from seven cities and villages located in the northwestern regions of Cameroon. Specimens were screened using a serological algorithm designed to identify HIV-1 group M, N, and O, and SIVcpz-like infections followed by RT-PCR amplification to characterize the infecting virus. The results show that the HIV epidemic in northwest Cameroon is dominated by HIV-1 group M CRF02_AG infections (57%). Additional group M subtypes present include A, D, F2, G, and CRF01_AE. Based on discordant subtype classification between gag and env sequences, a high percentage (23%) of viral strains appear to be unique intersubtype recombinants with the majority (88%) involving recombination with CRF02_AG. Group O prevalence is low accounting for only 0.4% of HIV infections. However, group O strain diversity is high; isolates from clades I, IV, and V, as well as unclassified and recombinant strains, were found. Three dual infections by HIV-1 group M and group O were identified and characterized. In two specimens, both group M and O sequences were amplified in gag, pol, and env suggesting the presence of both viruses. Analysis of the third specimen shows the presence of a group O virus and an intergroup M/O recombinant virus. Finally, no infections due to HIV-1 group N or SIVcpz-like strains were found in the study population.

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Detection ofPlasmodium falciparum,P. vivax,P. ovale, andP. malariaeMerozoite Surface Protein 1-p19 Antibodies in Human Malaria Patients and Experimentally Infected Nonhuman Primates

Muerhoff

Birkenmeyer

Coffey

et al. 2010

Clin Vaccine Immunol

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Approximately 3.2 billion people live in areas where malaria is endemic, and WHO estimates that 350 to 500 million malaria cases occur each year worldwide. This high prevalence, and the high frequency of international travel, creates significant risk for the exportation of malaria to countries where malaria is not endemic and for the introduction of malaria organisms into the blood supply. Since all four human infectious Plasmodium species have been transmitted by blood transfusion, we sought to develop an enzyme-linked immunosorbent assay (ELISA) capable of detecting antibodies elicited by infection with any of these species. The merozoite surface protein 1 (MSP1), a P. falciparum and P. vivax vaccine candidate with a well-characterized immune response, was selected for use in the assay. The MSP1 genes from P. ovale and P. malariae The commercial ELISA detected all malaria patients with P. falciparum or P. vivax infections, as did the corresponding species-specific p19 ELISAs. However, the commercial ELISA detected antibodies in 0/2 and 5/8 individuals with P. malariae and P. ovale infections, respectively, while the p19 assays detected 100% of individuals with confirmed P. malariae or P. ovale infections. In experimentally infected nonhuman primates, the use of MSP1-p19 antigens from all four species resulted in the detection of antibodies within 2 to 10 weeks postinfection. Use of MSP1-p19 antigens from all four Plasmodium species in a single immunoassay would provide significantly improved efficacy compared to existing tests.

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Ruthie Coffey

The Prevalence of Diverse HIV-1 Strains Was Stable in Cameroonian Blood Donors From 1996 to 2004

Identification of HIV Type 1 Group N Infections in a Husband and Wife in Cameroon: Viral Genome Sequences Provide Evidence for Horizontal Transmission

Identification and Genomic Sequence of an HIV Type 1 Group N Isolate from Cameroon

HIV Infections in Northwestern Cameroon: Identification of HIV Type 1 Group O and Dual HIV Type 1 Group M and Group O Infections

Detection ofPlasmodium falciparum,P. vivax,P. ovale, andP. malariaeMerozoite Surface Protein 1-p19 Antibodies in Human Malaria Patients and Experimentally Infected Nonhuman Primates

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