References
- Banks WA. Physiology and pathology of the blood-brain barrier: implications for microbial pathogenesis, drug delivery and neurodegenerative disorders. J NeuroVirol 1999; 5: 538–555
- Bonwetsch R, Croul S, Richardson MW, Lorenzano C, Del Valle L, Alexander G, Aminni S, Morgello S, Khalili K, Rappaport J. Role of HIV-1 tat and CC chemokine MIP-1α in the pathogenesis of HIV associated central nervous system disorders. J NeuroVirol 1997; 5: 685–694
- Briese T, Hornig M, Lipkin WI. Bomavirus immunopathogenesis in rodents: implications for human neurological diseases. J NeuroVirol 1999; 5: 604–612
- Gabuzda D, Wang J. Chemokine receptors and virus entry in the central nervous system. J NeuroVirol 1999; 5: 643–658
- Glabinski AR, Ransohoff RM. Sentries at the gate: chemokines and the blood brain barrier. J NeuroVirol 1999; 5: 623–634
- Hoffman LM, Fife BT, Begolka WS, Miller SD, Karpus WJ. Central nervous system chemokine expression during Theiler's virus-induced demyelinating disease. J NeuroVirol 1999; 5: 635–642
- Mankowski JL, Queen SE, Kirstein LM, Spelman JP, Laterra J, Simpson IA, Adams RJ, Clements JE, Zink MC. Alterations in blood-brain barrier glucose transport in SIV-infected macaques. J NeuroVirol 1999; 5: 695–702
- Miller DW. Immunobiology of the blood-brain barrier. J NeuroVirol 1999; 5: 570–578
- Moses AV, Bloom FE, Pauza CD, Nelson JA. Human immunodeficiency virus infection of human brain capillary endothelial cells occurs via a CD4/galactosylceramide-independent mechanism. Proc Natl Acad Sci 1993; 90: 10474–10478
- Nottet H SLM. Interactions between macrophages and brain microvascular endothelial cells: role in pathogenesis of HIV-1 infection and blood-brain barrier function. J NeuroVirol 1999; 5: 659–669
- Pardridge WM. Blood-brain barrier biology and methodology. J NeuroVirol 1999; 5: 556–569
- Persidsky Y. Model systems for studies of leukocyte migration across the blood-brain barrier. J NeuroVirol 1999; 5: 579–590
- Petito CK, Chen H, Mastri A, Torres-Munoz J, Roberts B, Wood C. HIV infection of the choroid plexus in AIDs and asymptomatic HIV-infected patients suggests that the choroid plexus may be a reservoir of productive infection. J NeuroVirol 1999; 5: 670–677
- Schneider-Schaulies J, Niewiesk S, Schneider-Schaulies S, ter Meulen V. Measles virus in the CNS: the role of viral and host factors for the establishment and maintanenace of a persistent infection. J NeuroVirol 1999; 5: 613–622
- Woodman SE, Nath A, Berman JW. Human immunodeficiency virus type 1 TAT protein induces adhesion molecule expression in astrocytes. J NeuroVirol 1999; 5: 678–684
- Zhang J-R, Tuomanen E. Molecular and cellular mechanisms for microbial entry into the CNS. J NeuroVirol 1999; 5: 591–603