[A Case of Isolated ACTH Deficiency Induced by Nivolumab in a Patient with Gastric Cancer Metastasis of the Peritoneum].

Nivolumab induces several immune-related adverse events. Isolated adrenocorticotropic hormone(ACTH)deficiency has low frequency. A 73-year-old woman with gastric cancer metastasis of the peritoneum was treated with nivolumab as the third-line chemotherapy. After 5 courses of nivolumab, she developed hypothyroidism. After completing 12 courses, peritoneal metastasis increased. We evaluated the metastasis as progression of disease, so treatment with nivolumab was discontinued. Two weeks after the last dosage of nivolumab, she developed general fatigue and appetite loss. At first, we considered that these symptoms were caused by peritoneal metastasis, but progression was not indicated in the CT. Blood levels of cortisol and ACTH were very low. We suspected secondary adrenocortical insufficiency induced by nivolumab. Endocrinological examinations and the results of brain MRIsuggested isolated ACTH deficiency. This is the first report of isolated ACTH deficiency induced by nivolumab in a patient with gastric cancer metastasis of the peritoneum. The symptoms of adrenocortical insufficiency induced by nivolumab overlap with those of peritoneal metastasis, and thus, it may be difficult to confirm a differential diagnosis. When adrenocortical insufficiency is suspected, we should check the blood levels of cortisol and ACTH.

HIV-1 Nef impairs multiple T-cell functions in antigen-specific immune response in mice.

The viral protein Nef is a key element for the progression of HIV disease. Previous in vitro studies suggested that Nef expression in T-cell lines enhanced TCR signaling pathways upon stimulation with TCR cross-linking, leading to the proposal that Nef lowers the threshold of T-cell activation, thus increasing susceptibility to viral replication in immune response. Likewise, the in vivo effects of Nef transgenic mouse models supported T-cell hyperresponse by Nef. However, the interpretation is complicated by Nef expression early in the development of T cells in these animal models. Here, we analyzed the consequence of Nef expression in ovalbumin-specific/CD4(+) peripheral T cells by using a novel mouse model and demonstrate that Nef inhibits antigen-specific T-cell proliferation and multiple functions required for immune response in vivo, which includes T-cell helper activity for the primary and memory B-cell response. However, Nef does not completely abrogate T-cell activity, as defined by low levels of cytokine production, which may afford the virus a replicative advantage. These results support a model, in which Nef expression does not cause T-cell hyperresponse in immune reaction, but instead reduces the T-cell activity, that may contribute to a low level of virus spread without viral cytopathic effects.

High and inducible expression of human immunodeficiency virus type 1 (HIV-1) Nef by adenovirus vector does not disturb potent antigen presentation by monocyte-derived dendritic cells.

Numerous studies indicated that Nef is a pleiotropic factor. Although it has been shown that Nef impairs the antigen-presenting activity of dendritic cells, more recent studies have shown no such impairment. This issue is critical for designing a vaccine expressing Nef. To refine our knowledge regarding the effect of Nef on dendritic cells, we developed constitutive and inducible adenovirus vector systems that express high levels of Nef in monocyte-derived dendritic cells (MDDCs). We showed here that Nef expression clearly downregulated CD4 expression of MDDCs but had little or no effect on other surface molecules, including MHC class I. Nef also did not affect the functional maturation of MDDCs. Use of the inducible Nef-expression system clearly revealed that adenovirus infection per se modulates cytokine secretion and the expression of apoptosis-related molecules in MDDCs, whereas Nef had no effect on these functions. Moreover, the antigen-presenting activity of MDDCs was not disturbed by the presence of Nef. On the contrary, we found that Nef-expressing MDDCs generated from HIV-1-infected individuals efficiently activated Nef-reactive T cells. Therefore, although adenovirus vector may modulate some aspects of MDDC function, Nef-expressing adenovirus would be served as one of HIV vaccine candidates.

HIV-1 Nef protein in the nucleus influences adipogenesis as well as viral transcription through the peroxisome proliferator-activated receptors.

BACKGROUND: Although the HIV-1 Nef protein (27 kDa) localizes primarily in cytoplasm, there is considerable evidence suggesting its occasional localization in the nucleus. Nef is known to play an important role in transcriptional events and viral replication, but the actual target of Nef in the nucleus remains to be identified. OBJECTIVE: To examine the functional roles of Nef in the nucleus and its possible interactions with other unknown factors in the nucleus. METHODS: High-density microarray analysis was used to screen directly the unique functions of Nef on host gene transcription. The nuclear localization of Nef and its effects on the expression of peroxisome proliferator-activated receptors (PPAR) was examined using PPAR promoter/reporter assay and immunoblotting. A long terminal repeat/reporter assay was used to investigated the effects of Nef and PPAR on viral transcription. RESULTS: Nef in the nucleus suppressed PPAR gamma expression and reduced fatty acid levels in human T and macrophage cell lines. Expression of Nef or PPAR suppressed viral replication; the effect of PPAR gamma or retinoid X receptor-alpha on viral replication were reduced by coexpression of Nef in MT(-)4 T cells. CONCLUSION: Nef may be involved in both viral replication and the wasting syndrome associated with AIDS.

A potential live vector, foamy virus, directed intra-cellular expression of ovine interferon-tau exhibited the resistance to HIV infection.

Interferon-tau (IFN-tau), produced by the embryonic trophectoderm, is a member of type I IFNs required for the establishment of pregnancy in the ruminant ungulates. Although this IFN possesses antiviral activity similar to other type I IFNs, the effectiveness of IFN-tau as an antiviral agent has not been well characterized. To investigate possible antiviral effects of ovine IFN-tau (oIFN-tau), oIFN-tau-GST fusion protein was expressed in E. coli BL21, from which the purified protein isolated possessed anti-viral activity. An apathogenic human foamy virus (hFV) was then used to establish a potential recombinant live vector consisting of oIFN-tau cDNA sense (+) or antisense (-) sequence, oIFN-tau(+)/hFV or oIFN-tau(-)/hFV, respectively. Human hematopoietic and other mammalian cell lines that had been transduced with hFV vector consisting of no oIFN-tau, oIFN-tau(+)/hFV or oIFN-tau(-)/hFV construct were cultured initially for 12 days, and three of cell lines were then maintained for up to 90 days. These cells with oIFN-tau expression directed by hFV exhibited the in vitro cytopathic effect minimally. Transduced cell lines that had been cultured for 90 days were subjected to studies on human immunodeficiency virus type-1 (HIV-1) infection, which was measured with infectivity of viral particles resulted from the GFP inserted T-cell tropic HIV SF2 or macrophage tropic HIV SF162: the number of HIV-1 positive cells was reduced by the hFV driven-intra-cellular oIFN-tau expression. Since oIFN-tau/hFV transduced cells exhibited the resistance to HIV-1 infection and/or replication, oIFN-tau could be considered as one of effective antiviral agents against HIV-1. These results suggest that the hFV genome could be an effective recombinant live vector for the expression of a targeted gene in various cell types.

Double-stranded nef RNA interferes with human immunodeficiency virus type 1 replication.

RNA interference (RNAi) has been reported to be post-transcriptional gene silencing (PTGS) by approximately 500 nucleotide-(nt)-long double-stranded (ds) RNA that specifically targets homologous sequences of messenger RNA. In this report, we describe inhibition of HIV-1 transcription by synthetic dsRNAs constructed with mutated nef genes (nef dsRNAs) derived from long-term non-progressors (LTNPs) using cotransfection of the target gene-expressing plasmid and dsRNA. The effects of nef dsRNAs were examined with luciferase (Luc) reporter which is combined with the HIV-1 (SF2) LTR in persistently HIV-1-infected T cell and macrophage cell lines. At 48 hr, a defective nef dsRNA (556 nt) suppressed Luc activity more potently than did SF2 full-length nef dsRNA (744 nt), suggesting that approximately 500 nt-long nef dsRNA could interfere with the HIV-1 transcription.

Isolation and sequencing of infectious clones of feline foamy virus and a human/feline foamy virus Env chimera.

Full-length DNAs of the Coleman and S7801 strains (pSKY3.0, pSKY5.0) of infectious feline foamy viruses (FFVs) were cloned and sequenced. Parental viruses, designated SKY3.0 and SKY5.0, were secreted following transfection of Crandell feline kidney (CRFK) cells. Production of the rescued parental viruses was enhanced in the presence of trichostatin A. Amino acid sequence similarities between FFV and human foamy virus (HFV) are extremely low for the envelope protein and capsid antigen, as predicted from the two clones. However, a chimeric FFV clone was constructed with the HFV Env substituted for the FFV Env. The chimeric virus (HFFV, SKY4.0) was able to infect and replicate in CRFK cells as well as in peripheral blood mononuclear cells of cats in vivo. Consequently, the chimeric HFFV may be useful for the creation of FV vectors for gene transfer strategies.