T-cell activation pathways are involved in the regulation of human immunodeficiency virus (HIV) expression. Phorbol 12-myristate 13-acetate (PMA) is a potent inducer of T-cell immune functions and has recently been demonstrated to increase viral replication in cell lines infected with HIV. To define sequences required for viral induction by PMA. T-cell lines were transiently transfected with viral long terminal repeat (LTR) sequences directing chloramphenicol acetyltransferase (CAT) gene expression. PMA added to transfected cell cultures 24 h before harvest reproducibly increased both CAT mRNA and enzyme expression 2- to 2-fold. Sequences necessary for basal and PMA-induced levels of CAT expression were determined by deletion and enhancer reconstitution constructs with fragments and oligonucleotides from the original LTR-CAT expression plasmid. PMA-inducible and basal activity required tandem repeats of a core enhancer element (GGGACTTTCC) located in the LTR between -105 and -82 relative to the RNA start site. The enhancerlike sequence could be inserted at a site distant to the CAT gene open reading frame and functioned in a position- and orientation-independent manner. The data thus define a transcriptionally active regulatory-enhancer element critical to the control of HIV gene expression.
A study was made of in vivo-generated polyethylene wear particles as separated from synovial fluid samples and from tissue samples surrounding total knee arthroplasty. A comparison of particle size and morphology between the two particle groups was made to assess any effects of selective tissue capture, and macrophage encapsulation and digestion. In addition, a Raman spectroscopy technique was evaluated that enables positive identification of individual wear particles. The particles of the same size range found in the synovial fluid and tissue samples exhibited a comparable morphology. Notably, submicron-sized debris was present in both the synovial fluid and tissue samples surrounding knees with osteolysis. The novel micro-Raman analysis of individual particles was successful in the categorizing of wear debris as polyethylene or nonpolyethylene.
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