Table 1.
Summary of histological analysis of liver, lymphoid tissue, and kidney sections.
Figure 1.
Wild type yellow fever virus (YFV-DakH1279) is highly virulent in rhesus macaques.
Twenty adult female rhesus macaque (8–16 years) were infected subcutaneously with YFV-DakH1279 strain with doses ranging from 25 to 5×104 infectious units. (A) Viral loads were determined using quantitative RT-PCR and are expressed as genome copy number/ml serum. Filled circles denote animals that required humane euthanasia and open circles denote animals that survived YFV infection. (B) Kaplan-Meier survival curves following YFV-DakH1279 infection.
Figure 2.
YFV-DakH1279 infection results in severe liver damage in rhesus macaques.
(A–B) Images of liver in a representative uninfected (A) and YFV-DakH1279 infected animal that required humane euthanasia (B). The infected liver is discolored with signs of hemorrhagic foci. (C–D, 400×) H&E staining of liver sections from an uninfected (C) and YFV-DakH1279-infected (D) animal. Extensive hepatocytes necrosis (1) along with eosinophilic degeneration of liver cells (Councilman bodies, 2), and fatty changes (3) are noted by the black arrows in panel D. (E–H) Histological analysis of YFV antigen in an animal that survived (E 100× & G 400×) or required humane euthanasia following YFV-DakH1279 infection (F 100× &H 400×).
Figure 3.
Indices of liver injury in YFV-DakH1279-infected rhesus macaques.
Fold change in serum levels and correlation with viral genome copy number of alanine aminotransferase (A), bile acids (B), alkaline phosphatase (C) and total bilirubin (D) were determined at the indicated time points after infection. Filled circles denote animals that required humane euthanasia and open circles denote animals that survived YFV-DakH1279 infection.
Figure 4.
Kidney injury in YFV-DakH1279-infected rhesus macaques.
(A–D) H&E staining of kidney sections from a representative uninfected (A) and YFV-DakH1279 infected animal (B–D). The black arrows note granular bilirubin casts in dilated distal convoluted tubules (1), necrotic tubular epithelial cells (2) and red blood cells (3), proteinaceous casts in dilated proximal convoluted tubules (4), and necrotic tubular epithelial cells in distal tubular segments containing large granular bilirubin casts (5). Histological staining of YFV antigen in kidney section from a surviving animal (E) and one that required euthanasia following YFV-DakH1279 infection (F) shows no detectable viral antigen. Slides A, C, and D acquired at 400× and slides B, E, and F acquired at 200× magnification. (G) Increased BUN levels were observed in some animals shortly before requiring euthanasia and (H) correlate with viral genome copy numbers/mL serum. Filled circles denote animals that required euthanasia and open circles denote animals that survived YFV infection.
Figure 5.
YFV-DakH1279 infection results in severe lymphopenia.
(A) Fold change in white blood cells, (B) lymphocytes and (C) neutrophils were measured at the indicated time points and calculated as the ratio of cell counts/mL for each day relative to the 0 dpi count. (D) A negative correlation between viral load and lymphocyte count (p<0.0001, R2 = 0.46) (D), but no correlation was noted between numbers of circulating neutrophils and viral loads (E). Filled circles denote animals that required euthanasia and open circles denote animals that survived YFV infection.
Figure 6.
Germinal center necrosis following infection with YFV-DakH1279.
(A, B) H&E staining showing healthy lymphocytic elements in the germinal centers of spleens from a surviving animal (A) and germinal necrosis in spleen of one that required euthanasia (B) Tangible body macrophage (1) and apoptosis (2) are indicated in panel B. (C, D) Histological examination of YFV antigen in spleen of a surviving animal (C) and one requiring euthanasia (D) show no viral antigen. (E–H) Histological staining for CD20 (E-survivor, F-euthanized) and CD3 antigens (G-survivor, H-euthanized). All slides were acquired at 200× magnification.
Figure 7.
Circulating levels of inflammatory cytokines in YFV-DakH1279-infected rhesus macaques.
Serum levels of IL-6 (A), IL-15 (B), MCP-1 (C), and IFNγ (D) increase sharply in animals requiring euthanasia following infection with YFV and significantly correlate with viral loads. Filled circles denote animals that required euthanasia and open circles denote animals that survived YFV infection.
Figure 8.
Functional characterization of PBMCs transcriptomic response to YFV-17D infection at 3 days post-infection.
The 46 DEGs after YFV-17D infection were grouped into functional categories based on enriched gene ontology (GO) terms (Table S1) and their expression value in log2FC is depicted in a green to red gradient color scheme. Three animals were challenged with YFV-17D (orange), while another three animals were infected with YFV-DakH1279 (cyan). Color on the left of each heatmap indicates whether the gene was found differentially expressed after YFV-17D infection (orange), or both YFV-17D and YFV-DakH1279 (grey). Genes were functionally categorized into: (A) immune response category (these genes were either involved in cytokine signaling pathways (Cy), or specifically up-regulated in innate immune cells (In) or adaptive immune cells (Ad)); (B) epigenetics; 9C) Ubiquitination-ISGylation; (D) cytoskeleton-adhesion; or (E) did not map to a specific functional category.
Figure 9.
Functional characterization of PBMCs transcriptomic response to YFV-DakH1279 infection at 3 days post-infection.
Expression values for DEGs after YFV-DakH1279 infection within the 3 main enriched functional categories (Table S1) are depicted in a green to red gradient color scheme. Three animals were challenged with YFV-17D (orange), while another three animals were infected with YFV-DakH1279 (cyan). Color on the left of each heatmap indicates whether the gene was found differentially expressed after YFV-DakH1279 infection (cyan), or both YFV-17D and YFV-DakH1279 (grey). Genes were functionally categorized into: (A) the immune response category (these genes were either involved in cytokine signaling pathways (Cy), or specifically up-regulated in innate immune cells (In) or adaptive immune cells (Ad)); (B) Metal ion binding (manganese ion binding (Mn), zinc ion binding (Zn) and other metal ion binding (M)); or (C) cell growth and apoptosis. (D) Extent of overlap between the three functional categories: # indicates genes common between cell growth/apoptosis and “immune response” pathways; + indicates genes common to “cell growth/apoptosis” and “metal ion binding” pathways; * indicates genes common to “metal ion binding” and “immune response” pathways.