BACKGROUND: KSHV, Kaposi's sarcoma-associated herpesvirus, is a necessary cofactor for the development of Kaposi's sarcoma (KS). We have previously reported KSHV-related DNA sequences in retroperitoneal fibromatosis (RF) tissue from two species of macaque. The putative herpesvirus was called RFHV for RF-associated herpesvirus. These data suggested that KSHV is a human representative of a larger family of primate herpesviruses. OBJECTIVE: To identify and characterize other members of a putative family of KSHV-related herpesviruses in macaques in order to obtain information on the evolutionary history of KSHV infection in humans. STUDY DESIGN: Lymphoid tissue cells and blood leukocytes from rhesus-, cynomolgus- and pigtailed-macaques were tested for the presence of unknown herpesviruses using degenerate primer-driven PCR amplification. The sequences obtained were compared against known herpesvirus sequences. RESULTS: We have identified new herpesvirus DNA sequences in each of the three macaque species. Sequence comparisons indicate that these new viruses are most related to each other and form a separate phylogenetic lineage within the gamma herpesviruses. Screening of PBMC from Indonesian-origin quarantine animals suggests that these viruses (MGV, macaque gamma virus) are species-specific, and highly prevalent in the wild. They are readily cultured in vivo, and share a common tissue tropism with the previously identified RFHV. CONCLUSIONS: MGV and RFHV represent two independent introductions of an ancestral gamma herpesvirus into macaque precursors.
BACKGROUND:KSHV, Kaposi's sarcoma-associated herpesvirus, is a necessary cofactor for the development of Kaposi's sarcoma (KS). We have previously reported KSHV-related DNA sequences in retroperitoneal fibromatosis (RF) tissue from two species of macaque. The putative herpesvirus was called RFHV for RF-associated herpesvirus. These data suggested that KSHV is a human representative of a larger family of primate herpesviruses. OBJECTIVE: To identify and characterize other members of a putative family of KSHV-related herpesviruses in macaques in order to obtain information on the evolutionary history of KSHV infection in humans. STUDY DESIGN: Lymphoid tissue cells and blood leukocytes from rhesus-, cynomolgus- and pigtailed-macaques were tested for the presence of unknown herpesviruses using degenerate primer-driven PCR amplification. The sequences obtained were compared against known herpesvirus sequences. RESULTS: We have identified new herpesvirus DNA sequences in each of the three macaque species. Sequence comparisons indicate that these new viruses are most related to each other and form a separate phylogenetic lineage within the gamma herpesviruses. Screening of PBMC from Indonesian-origin quarantine animals suggests that these viruses (MGV, macaque gamma virus) are species-specific, and highly prevalent in the wild. They are readily cultured in vivo, and share a common tissue tropism with the previously identified RFHV. CONCLUSIONS: MGV and RFHV represent two independent introductions of an ancestral gamma herpesvirus into macaque precursors.
Authors: Jessica A White; Patricia A Todd; Joann L Yee; Alexis Kalman-Bowlus; Kelsey S Rodgers; Xiaowei Yang; Scott W Wong; Peter Barry; Nicholas W Lerche Journal: Comp Med Date: 2009-08 Impact factor: 0.982
Authors: Denise Whitby; Andrea Stossel; Christine Gamache; James Papin; Marnix Bosch; Anne Smith; Dean H Kedes; Gary White; Ronald Kennedy; Dirk P Dittmer Journal: J Virol Date: 2003-07 Impact factor: 5.103
Authors: A Gregory Bruce; Margaret E Thouless; Anthony S Haines; Mark J Pallen; Adam Grundhoff; Timothy M Rose Journal: J Virol Date: 2015-01-21 Impact factor: 5.103