Chikungunya, Influenza, Nipah, and Semliki Forest Chimeric Viruses with Vesicular Stomatitis Virus: Actions in the Brain

Identification of neurons and astrocytes. (A) Neuronal nuclei are immunostained red for the neuronal antigen NeuN (short arrows). (B) Neurons with 2 to 4 thin dendritic or axonal processes contain NeuN-positive nuclei. (A and B) Bar, 20 μm. (C) Neurons are labeled by NeuN immunostaining (red), and astrocytes are labeled green by GFAP immunostaining. (D) In the same field shown in panel C, phase contrast shows that phase-bright neurons and astrocyte immunostaining overlap. (C and D) Bar, 40 μm. (E) Astrocytes 2 days after inoculation with VSVΔG-H5N1. Astrocyte processes have withdrawn, and GFAP immunoreactivity is no longer fiber-like, as seen in normal astrocytes (C and F), but has become more globular, indicating cell cytolysis. (F) Normal astrocytes immunolabeled with GFAP show long, thin GFAP staining. (E and F) Bar, 40 μm.

Immunostaining for chimeric VSVs in mouse brain cultures containing neurons and glia. (A and B) VSVΔG-Nipah F+G and VSVΔG-H5N1 showed immunostaining in small neurons (arrows). Scale bar, 30 μm (all panels). (C) VSVΔG-CHIKV showed immunoreactivity in the plasma membranes of large astrocytes (long arrows) and also staining in some small neuron-like cells (short arrows). (D) VLV showed staining in neurons (arrows). (E) Control cultures with no virus showed no immunoreactivity.

Survival and infection after intranasal inoculation with chimeric VSVs. (A) In postnatal day 14 mice, viruses were applied to the external nares. VSV-G/GFP was lethal, as previously reported. VSVΔG-CHIKV and VLV were without lethal effect. VSV-IFN showed no adverse effect. Similarly, VSVΔG-LCMV, used as a negative control for safety, showed no lethal effect. In contrast, VSVΔG-Nipah F+G was lethal in many mice. VSVΔG-H5N1 showed a very strong lethal effect, resulting in a fatal response in almost all of the 23 mice tested. (B) VSVΔG-H5N1 at 5 dpi showed strong infection of the left cortex with minimal infection of the adjacent right cortex. (C) VSVΔG-H5N1 in the same brain strongly infected cells of the hypothalamus in the region of the arcuate nucleus (ARC). (D and E) Hippocampus (D) and lungs (E) showed no detectable infection in the same mouse. (F) VSVΔG-Nipah F+G showed strong infection of periglomerular cells and mitral cells in the olfactory bulb at 3 dpi.

VSVΔG-CHIKV, VSVΔG-H5N1, and VLV are safe in the adult brain, whereas VSVΔG-Nipah F+G is lethal. (A) Of the 4 viruses tested, only VSVΔG-Nipah F+G was rapidly lethal when injected into the adult mouse brain. VSVΔG-CHIKV, VSVΔG-H5N1, and VLV were all completely without lethal effect in the adult brain. (B) In contrast to its lack of adverse action in the adult brain, VSVΔG-H5N1 showed lethal actions when injected into the brains of younger, postnatal day 14 mice.

VSVΔG-CHIKV in brain and culture. (A) Injection of VSVΔG-CHIKV into the brain infected both neurons and astrocytes at 3 dpi. The arrow points to an astrocyte with many radiating processes. Bar, 35 μm. (B) No infection was seen in the contralateral cortex. Bar, 25 μm. (C) Some neurons also showed VSVΔG-CHIKV infection. Bar, 25 μm. (D) In culture, large, flat astrocytes are preferentially infected at 1 dpi. (E) Astrocytes are infected in vitro at 1 dpi. Bar, 12 μm. (F) The arrows indicate cells with neuronal morphology in the same field shown in panel E. Whereas many glial cells were infected, neurons were not infected. Bar, 30 μm.

VLV in brain and culture. (A) After intracranial inoculation, VLV infects mostly neurons. The arrows show a dendrite stretching toward the outer cortex filled with small vesicles, a typical sign of early infection. Bar, 10 μm. (B) Two infected cells in the cortex, with vesicle-like labeling of the cell body and processes (arrows). Bar, 4 μm. (C) In vitro, both astrocytes and neurons are infected by VLV. Bar, 9 μm.

VSVΔG-H5N1 in the brain. (A) Cortical neurons were infected by VSVΔG-H5N1 at 3 dpi in the adult mouse brain. Bar, 18 μm. (B) High magnification of a neuronal dendrite with dendritic spines (arrows). Bar, 4 μm. Although the cells were infected at the injection site, the virus showed little spread. (C) In vitro, neurons and astrocytes show infection. Bar, 14 μm.

VSVΔG-Nipah F+G in the brain. (A) At 1 day after a small, 0.4-μl intracortical injection, VSVΔG-Nipah F+G had spread to a large number of neurons. The arrow indicates a neuron with pyramidal cell morphology. Bar, 22 μm. (B) Higher magnification of panel A. Arrows point to the same neuron in panels A and B. (C) Virus spread across the corpus callosum (cc) into the striatum. (D) Higher magnification of infected striatal cells. In both the striatum, as shown, and the cortex (B), most infected cells had the morphology of neurons. No infection was seen in the contralateral cortex.