Heterogeneity and penetration of HIV-1 non-subtype B viruses in an Italian province: public health implications

SUMMARY This study assessed changes in prevalence and distribution of HIV-1 non-subtype B viruses in Italian and immigrant patients over two decades in a province in Italy. All HIV-positive patients who underwent genotypic resistance testing were selected. Prevalence of non-subtype B viruses in 3-year periods was calculated. All sequences of non-subtype B and those provided by REGA as unassigned were analysed for phylogenetic relationships. In total, 250/1563 (16%) individuals were infected with a non-subtype B virus. Prevalence increased over time, reaching a peak (31·5%) in 2004–2006. In Italian patients, the most frequent subtypes were B (92·5%) and F1 (4%). F1 subtype was also prevalent in patients from South America (13·6%); in patients of African origin, CRF02_AG (54·9%) and G (12·3%) were the most frequent. HIV-1 non-subtype B infections in Italians were mostly found in patients who acquired HIV sexually. A phylogenetic relationship between F subtypes in Italian and representative HIV-1 sequences from Brazil was found. C subtypes in Italians were phylogenetically related to subtypes circulating in Brazil. Inter-subtype recombinants were also found in the latest years. The HIV-1 epidemic in Brescia province evolved to the point where about 1/3 patients recently diagnosed harboured non-B HIV subtypes. The distribution of HIV-1 non-B subtypes in Italian patients resembled that in South American patients and phylogenetic relatedness between some Italian and South American HIV-1 strains was found. The possible epidemiological link between these two populations would have been missed by looking only at risk factors for HIV acquisition declared by patients. The evidence of inter-subtype recombinants points to significant genetic assortment. Overall our results support phylogenetic analysis as a tool for epidemiological investigation in order to guide targeted prevention strategies.

[1]  P. Kilmarx,et al.  Global epidemiology of HIV , 2009, Current opinion in HIV and AIDS.

[2]  O. Pybus,et al.  Tracing the HIV-1 subtype B mobility in Europe: a phylogeographic approach , 2009, Retrovirology.

[3]  Steven Wolinsky,et al.  Direct evidence of extensive diversity of HIV-1 in Kinshasa by 1960 , 2008, Nature.

[4]  F. Baldanti,et al.  Changes in circulation of B and non‐B HIV strains: Spotlight on a reference centre for infectious diseases in Northern Italy , 2008, Journal of medical virology.

[5]  S. Lo Caputo,et al.  Difficulties in classifying a/g recombinants: methodological problems or genetic variability? , 2007, AIDS research and human retroviruses.

[6]  Anne-Mieke Vandamme,et al.  Recombination Confounds the Early Evolutionary History of Human Immunodeficiency Virus Type 1: Subtype G Is a Circulating Recombinant Form , 2007, Journal of Virology.

[7]  D. Posada,et al.  Identification of 3 Phylogenetically Related HIV-1 BG Intersubtype Circulating Recombinant Forms in Cuba , 2007, Journal of acquired immune deficiency syndromes.

[8]  M. Poljak,et al.  Molecular epidemiology of HIV‐1 subtypes based on analysis of pol sequences in Slovenia, 1996–2005 , 2006, Journal of medical virology.

[9]  A. Geretti,et al.  HIV-1 subtypes: epidemiology and significance for HIV management , 2006, Current opinion in infectious diseases.

[10]  Á. Holguín,et al.  HIV‐1 subtypes in Spain: a retrospective analysis from 1995 to 2003 , 2005, HIV medicine.

[11]  F. McCutchan,et al.  Distinct Human Immunodeficiency Virus Type 1 Subtype A Virus Circulating in West Africa: Sub-Subtype A3 , 2004, Journal of Virology.

[12]  J. Montaner,et al.  HIV type 1 BF recombinant strains exhibit different pol gene mosaic patterns: descriptive analysis from 284 patients under treatment failure. , 2004, AIDS research and human retroviruses.

[13]  F. Vitale,et al.  Detection of HIV type 1 non-B subtypes in Sicily, Italy. , 2004, AIDS research and human retroviruses.

[14]  F. Brun-Vézinet,et al.  Stable prevalence of genotypic drug resistance mutations but increase in non-B virus among patients with primary HIV-1 infection in France , 2003, AIDS.

[15]  B. Masquelier,et al.  HIV type 1 diversity in France, 1999-2001: molecular characterization of non-B HIV type 1 subtypes and potential impact on susceptibility to antiretroviral drugs. , 2003, AIDS research and human retroviruses.

[16]  V. Arendt,et al.  HIV-1 subtypes in Luxembourg, 1983–2000 , 2002, AIDS.

[17]  R. Parreira,et al.  Molecular epidemiology of HIV type 1 infection in Portugal: high prevalence of non-B subtypes. , 2002, AIDS research and human retroviruses.

[18]  K. Strimmer,et al.  Dating the common ancestor of SIVcpz and HIV‐1 group M and the origin of HIV‐1 subtypes by using a new method to uncover clock‐like molecular evolution , 2001, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[19]  A. Nicoll,et al.  The public health significance of HIV-1 subtypes , 2001, AIDS.

[20]  B. Korber,et al.  An African HIV-1 sequence from 1959 and implications for the origin of the epidemic , 1998, Nature.

[21]  P. Sclater On Certain Principles to be Observed in the Establishment of a National Museum of Natural History , 1870, Nature.