Y. Liu scite author profile

Calretinin-containing elements were visualized with immunocytochemistry in the adult mouse dentate gyrus (DG). In the ventral DG calretinin immunoreactive (CR-IR) large multipolar cells were clustered; they extended between two and four thick cylindrical dendrites which further branched into several thinner processes. Characteristic grape-like spiny appendages were occasionally observed on these thick and thinner dendritic processes. On the basis of these structural features these large CR-IR cells were identified as hilar mossy cells. At the supragranular zone a dense CR-IR band was seen, where numerous CR-IR punctae and fibers were packed tightly among putative granule cell dendrites. In the granule cell layer, especially at the dorsal DG, numerous faintly CR-IR cells were located at the interface with the hilus. They were triangular in shape and neither calbindin D28k nor GABA positive, but were immunoreactive for highly polysialylated neural cell adhesion molecule (NCAM-H) and thus considered as newly generated neurons. In the molecular layer CR-IR cells were also scattered; they were mainly located near the pial surface and the hippocampal fissure, small in size, ovoid in shape and usually gave rise to one very thin axon-like and one thin cylindrical dendritic process. These cells were assumed to be Cajal-Retzius cells. Throughout the layers, that is, the molecular layer, the granule cell layer and the hilus, CR-IR multipolar and/or fusiform cells were encountered. They resembled those reported in the rat DG in their structural features and usually extended smooth or varicose or sparsely spiny dendritic processes; some of them were confirmed to be GABA-like immunoreactive and/or glutamic acid decarboxylase immunoreactive. The present study showed that CR immunoreactivity in the mouse DG differed significantly from that in the rat and monkey dentate gyri reported previously.

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Induction of bilateral retinal necrosis in mice by unilateral intracameral inoculation of a glycoprotein-C deficient clinical isolate of herpes simplex virus type 1

Liu

Sakai

Minagawa

et al. 1993

Archives of Virology

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Herpes simplex virus can cause acute retinal necrosis, a blinding retinal disease in man. A unilateral intracameral inoculation of herpes simplex virus type 1 (HSV-1) in mice induces retinal necrosis primarily in the contralateral eye and provides an experimental model for the disease. Previous studies suggested that a major envelope glycoprotein of HSV-1, glycoprotein C (gC), is required for retinal necrosis. We studied HSV-1 strain TN-1, a gC-deficient clinical isolated from a lesion of herpetic keratitis, for its pathogenicity in mice with an intracameral inoculation of the virus and found that TN-1 could induce severe necrotizing retinitis in both inoculated and uninoculated eyes of BALB/c mice. Inoculation with a lower dose of TN-1 resulted in a unilateral necrotizing retinitis in the uninoculated eyes. Tissue virus titration of infected mice killed at various times after inoculation detected an infectious virus in various organs including the eyeballs, trigeminal ganglia, brain and adrenal glands. Anterior chamber-associated immune deviation (ACAID) was observed in TN-1-inoculated mice as well as in mice inoculated with gC-positive laboratory strain KOS 7 days postinoculation. Our findings suggested that gC of HSV-1 is not necessary for either the induction of retinal necrosis, neural spread of the virus, or ACAID.

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Necrotizing chorioretinitis in mice inoculated with herpes simplex virus type 1 with or without glycoprotein C: anterior chamber-associated immune deviation does not persist

Liu

Minagawa

Toh

et al. 1993

Archives of Virology

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BALB/c mice developed contralateral necrotizing retinitis following intracameral inoculation with herpes simplex virus type 1 (HSV-1). The animals showed a positive delayed-type hypersensitivity (DTH) response at 10 days postinoculation, indicating that the anterior chamber-associated immune deviation was transient after HSV-1 inoculation. Since glycoprotein C (gC) of HSV-1 is a major immunogen, we examined DTH and the antibody response induced by a gC-deficient strain TN-1 and compared them with those induced by the recombinant gC-positive mutants. We found that gC was not required for DTH reaction, and that gC was neither necessary for nor protective against the contralateral retinal necrosis. Serial lymphocyte subset analyses of the draining lymph nodes revealed an absolute increase of B cells, CD4-positive T cells, and CD8-positive T cells. CD4-positive T cells but not CD8-positive T cells increased in the contralateral eyes during the inflammation and necrosis. The coincident emergence of the positive DTH and contralateral retinal necrosis of HSV-1-inoculated mice, together with the presence of CD4-positive cells in the retina, indicated that CD4-positive T cells responsible for DTH induction may participate in the retinal necrosis.

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Molecular characterization of naturally occurring glycoprotein C-negative herpes simplex virus type 1

Toh

Tanaka

Liu

et al. 1993

Archives of Virology

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We previously isolated glycoprotein C (gC)-negative herpes simplex virus type 1 (HSV-1) mutants, TN-1, TN-2 and TN-3, from a patient with recurrent herpetic keratitis at one-year intervals. In the present study, the molecular basis for the inability of these clinical isolates to express gC was examined. The nucleotide sequence of the gC gene of the TN-1 strain was compared with that of the HSV-1 KOS strain. In the open reading frame of the gC gene, there were 12 nucleotide differences between the TN-1 and KOS strains, seven of which led to amino acid substitutions. Importantly, one of them was the codon change from CAG for glutamine at position 280 to TAG for the amber termination codon. Accordingly, the TN-1 strain produced a truncated gC with a predicted molecular weight, which was secreted into the extracellular fluid. These results suggest that this amber mutation in the TN-gC gene results in a premature termination of gC translation and is the cause of the gC-negative phenotype of the TN strains. It is expected that these extremely rare HSV-1 strains will provide us with valuable information concerning the in vivo functions of gC, especially in ocular diseases.

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Brazilian green propolis improves cognitive functions and modulates systemic cytokines in elderly people living at high altitude

Liu

Zhu

et al. 2017

Journal of the Neurological Sciences

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Y. Liu

Distribution of calretinin immunoreactivity in the mouse dentate gyrus

Induction of bilateral retinal necrosis in mice by unilateral intracameral inoculation of a glycoprotein-C deficient clinical isolate of herpes simplex virus type 1

Necrotizing chorioretinitis in mice inoculated with herpes simplex virus type 1 with or without glycoprotein C: anterior chamber-associated immune deviation does not persist

Molecular characterization of naturally occurring glycoprotein C-negative herpes simplex virus type 1

Brazilian green propolis improves cognitive functions and modulates systemic cytokines in elderly people living at high altitude

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