Viruses target specific host cell m

Viruses target specific host cell molecules that would otherwise restrict viral propagation. The HIV-1 and other lentiviral genomes encode different sets of accessory proteins directed at eluding host adaptive and innate immune mechanisms to promote viral replication in specific cell environments (1, 2). The Vpx and Vpr accessory proteins have been linked mostly to infection of myeloid lineage cells by HIVs (3). The Vpx accessory protein is found exclusively in HIV-2 and some simian immunodeficiency viruses, and Vpr is found in HIV-1 and HIV-2. Vpx targets a restriction factor that prohibits viral DNA synthesis in monocytic cells (4–6). Recently, the protein encoded by the SAMHD1 gene was identified as the HIV-1 restriction factor in cells of the myeloid lineage (7, 8). SAMHD1 is thought to inhibit an early step in the viral life cycle by interfering with efficient synthesis of viral DNA, but the mechanism is not known.

SAMHD1 was identified as an interferon-induced protein in human macrophages and dendritic cells (9–12), suggesting a function in the innate immune response. Mutations in SAMHD1 cause the severe neurodegenerative disorder Aicardi-Goutières syndrome (13), a genetic encephalopathy that closely mimics congenital viral infection and is characterized by inappropriate immune activation and aberrant interferon-α secretion (14–16). Likewise, mutations in the TREX1 exonuclease gene and in the three genes encoding the RNase H2 endonuclease cause Aicardi-Goutières syndrome, linking nucleic acid metabolism with this autoimmune disorder (17–19). TREX1 is the major 3′-exonuclease that degrades cellular single- and double-stranded DNA (20–26). In HIV-1-infected cells, TREX1 degrades nonproductive transcripts to clear excess viral cDNA, preventing innate immune activation (27, 28). The RNase H2 recognizes and cleaves ribonucleotides present in RNA/DNA duplexes (29, 30), and silencing RNASEH2A impairs HIV replication (31). This suggests a role in HIV infection. Thus, SAMHD1, TREX1, and RNase H2 participate in a cellular nucleic acid metabolic pathway that overlaps the interferon-mediated innate antiviral and inflammatory responses.

The catalytic activity of SAMHD1 is identified in this study. The SAMHD1 contains an N-terminal putative protein-protein interaction sterile α motif (SAM)4 domain and a C-terminal predicted phosphohydrolase HD (His···His-Asp···Asp) domain. The SAMHD1 was cloned, and bacterially expressed recombinant enzyme was generated in sufficient quantities and purity to perform biochemical studies. The enzymatic properties indicate that the SAMHD1 HIV-1 restriction factor is a dGTP-regulated deoxynucleotide triphosphohydrolase.

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EXPERIMENTAL PROCEDURES
Materials
The nucleotides were from Sigma, and calf intestinal phosphatase was from Promega. The human and mouse SAMHD1 cDNAs (Invitrogen) were recovered by PCR and cloned into the pCDFDuet-1 (Novagen) plasmid. The HD domain constructs were prepared by PCR, and final constructs were verified by DNA sequencing.

Enzyme Preparation
In expression studies, a His6 tag was cloned at the N or C terminus of the complete human and mouse SAMHD1 cDNAs, and maximal yields of soluble enzymes were recovered using the mouse N-terminal His6 tag SAMHD1 constructs (data not shown). Mouse SAMHD1 plasmid constructs were transformed into Escherichia coli BL21 (DE3) Rosetta 2 cells (Novagen), grown to an A600 = 0.5 at 37 °C, and quickly cooled on ice to 17 °C. After induction with 1 mm isopropyl-β-d-thiogalactopyranoside, the cells were allowed to grow for 18 h at 17 °C. The SAMHD1 enzymes in cell extracts were bound to a nickel-nitrilotriacetic acid resin (Qiagen), washed, eluted, and purified to homogeneity using Mono S chromatography (supplemental Fig. S1). TREX1 and RNase H2 were purified as described (22, 30). Protein concentrations were determined by A280 using the molar extinction coefficient for complete mouse SAMHD1 ϵ = 63,800 m−1 cm−1 and for SAMHD1 HD domain (amino acids 117–627) ϵ = 58,050 m−1 cm−1.

Phosphohydrolase Assays
Reactions (100 μl) were performed at 25 °C in 96-well microplates initiated by enzyme addition, and activity was monitored continuously at A410 using a Tecan Safire2TM. Phosphatase reactions contained 50 mm HEPES (pH 7.0), 4 mm p-nitrophenyl phosphate, 5 mm of the indicated divalent metal ion, and 500 nm SAMHD1. Phosphodiesterase reactions (100 μl) contained 50 mm Tricine (pH 8.5), 4 mm bis-p-nitrophenyl phosphate or p-nitrophenyl 5′-thymidine monophosphate, 5 mm of the indicated divalent metal ion, and 500 nm SAMHD1 (32).

Nucleotide Phosphohydrolase Assays
The nucleotide phosphohydrolase reactions contained 20 mm Tris-HCl (pH 7.5), 2 mm dithiothreitol, 1 μm EDTA, 5 mm MgCl2, the indicated nucleotides, and SAMHD1 enzyme. Reactions were incubated for the indicated times at 25 °C and stopped by the addition of EDTA to 5 mm final concentration. Protein was removed using 10,000 molecular weight cut-off concentrators (Millipore), and samples (10 μl) of the filtered solution were analyzed by ion pair reverse-phase chromatography (33, 34) using a CAPCELL PAK C18 column (Shiseido Fine Chemicals) on a Waters HPLC system. The column was equilibrated with buffer (20 mm sodium phosphate (pH 7.0), 5 mm tetra n-butylammonium phosphate, and 5% methanol) and eluted with a linear gradient of methanol from 5 to 60%. Products and reactants were quantified by measuring the A254. Quantification of the absorbance peaks was performed using the Empower software (Waters).