Your search keyword '"Yoshino O"' showing total 6 results

1. Lung-resident memory B cells established after pulmonary influenza infection display distinct transcriptional and phenotypic profiles

Author

Tan, H-X, Juno, JA, Esterbauer, R, Kelly, HG, Wragg, KM, Konstandopoulos, P, Alcantara, S, Alvarado, C, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, ML, Opdam, H, D'Costa, R, Vago, A, Mackay, LK, Gordon, CL, Masopust, D, Groom, JR, Kent, SJ, Wheatley, AK, Tan, H-X, Juno, JA, Esterbauer, R, Kelly, HG, Wragg, KM, Konstandopoulos, P, Alcantara, S, Alvarado, C, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, ML, Opdam, H, D'Costa, R, Vago, A, Mackay, LK, Gordon, CL, Masopust, D, Groom, JR, Kent, SJ, and Wheatley, AK

Abstract

Recent studies have established that memory B cells, largely thought to be circulatory in the blood, can take up long-term residency in inflamed tissues, analogous to widely described tissue-resident T cells. The dynamics of recruitment and retention of memory B cells to tissues and their immunological purpose remains unclear. Here, we characterized tissue-resident memory B cells (BRM) that are stably maintained in the lungs of mice after pulmonary influenza infection. Influenza-specific BRM were localized within inducible bronchus-associated lymphoid tissues (iBALTs) and displayed transcriptional signatures distinct from classical memory B cells in the blood or spleen while showing partial overlap with memory B cells in lung-draining lymph nodes. We identified lung-resident markers, including elevated expression of CXCR3, CCR6, and CD69, on hemagglutinin (HA)- and nucleoprotein (NP)-specific lung BRM. We found that CCR6 facilitates increased recruitment and/or retention of BRM in lungs and differentiation into antibody-secreting cells upon recall. Although expression of CXCR3 and CCR6 was comparable in total and influenza-specific memory B cells isolated across tissues of human donors, CD69 expression was higher in memory B cells from lung and draining lymph nodes of human organ donors relative to splenic and PBMC-derived populations, indicating that mechanisms underpinning BRM localization may be evolutionarily conserved. Last, we demonstrate that human memory B cells in lungs are transcriptionally distinct to populations in lung-draining lymph nodes or PBMCs. These data suggest that BRM may constitute a discrete component of B cell immunity, positioned at the lung mucosa for rapid humoral response against respiratory viral infections.

Published

2022

2. Adaptive immunity to human coronaviruses is widespread but low in magnitude

Author

Tan, H-X, Lee, WS, Wragg, K, Nelson, C, Esterbauer, R, Kelly, H, Amarasena, T, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, L, Opdam, H, D’Costa, R, Vago, A, The Austin Liver Transplant Perfusionist Group, Mackay, L, Gordon, C, Wheatley, A, Kent, S, Juno, J, Tan, H-X, Lee, WS, Wragg, K, Nelson, C, Esterbauer, R, Kelly, H, Amarasena, T, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, L, Opdam, H, D’Costa, R, Vago, A, The Austin Liver Transplant Perfusionist Group, Mackay, L, Gordon, C, Wheatley, A, Kent, S, and Juno, J

Abstract

Endemic human coronaviruses (hCoV) circulate worldwide but cause minimal mortality. Although seroconversion to hCoV is near ubiquitous during childhood, little is known about hCoV-specific T cell memory in adults. We quantified CD4 T cell and antibody responses to hCoV spike antigens in 42 SARS-CoV-2 uninfected individuals. T cell responses were widespread within conventional memory and cTFH compartments but did not correlate with IgG titres. SARS-CoV-2 cross-reactive T cells were observed in 48% of participants and correlated with HKU1 memory. hCoV-specific T cells exhibited a CCR6 + central memory phenotype in the blood, but were enriched for frequency and CXCR3 expression in human lung draining lymph nodes. Overall, hCoV-specific humoral and cellular memory are independently maintained, with a shared phenotype existing among coronavirus-specific CD4 T cells. This understanding of endemic coronavirus immunity provides insight into the homeostatic maintenance of immune responses that are likely to be critical components of protection against SARS-CoV-2.

Published

2021

3. Adaptive immunity to human coronaviruses is widespread but low in magnitude

Author

Tan, H-X, Lee, WS, Wragg, KM, Nelson, C, Esterbauer, R, Kelly, HG, Amarasena, T, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, ML, Opdam, H, D'Costa, R, Vago, A, Mackay, LK, Gordon, CL, Wheatley, AK, Kent, SJ, Juno, JA, Tan, H-X, Lee, WS, Wragg, KM, Nelson, C, Esterbauer, R, Kelly, HG, Amarasena, T, Jones, R, Starkey, G, Wang, BZ, Yoshino, O, Tiang, T, Grayson, ML, Opdam, H, D'Costa, R, Vago, A, Mackay, LK, Gordon, CL, Wheatley, AK, Kent, SJ, and Juno, JA

Abstract

OBJECTIVES: Endemic human coronaviruses (hCoVs) circulate worldwide but cause minimal mortality. Although seroconversion to hCoV is near ubiquitous during childhood, little is known about hCoV-specific T-cell memory in adults. METHODS: We quantified CD4 T-cell and antibody responses to hCoV spike antigens in 42 SARS-CoV-2-uninfected individuals. Antigen-specific memory T cells and circulating T follicular helper (cTFH) cells were identified using an activation-induced marker assay and characterised for memory phenotype and chemokine receptor expression. RESULTS: T-cell responses were widespread within conventional memory and cTFH compartments but did not correlate with IgG titres. SARS-CoV-2 cross-reactive T cells were observed in 48% of participants and correlated with HKU1 memory. hCoV-specific T cells exhibited a CCR6+ central memory phenotype in the blood, but were enriched for frequency and CXCR3 expression in human lung-draining lymph nodes. CONCLUSION: Overall, hCoV-specific humoral and cellular memory are independently maintained, with a shared phenotype existing among coronavirus-specific CD4 T cells. This understanding of endemic coronavirus immunity provides insight into the homeostatic maintenance of immune responses that are likely to be critical components of protection against SARS-CoV-2.

Published

2021

4. Elevated levels of circulating mitochondrial DNA predict early allograft dysfunction in patients following liver transplantation

Author

Yoshino, O, Wong, BKL, Cox, DRA, Lee, E, Hepworth, G, Christophi, C, Jones, R, Dobrovic, A, Muralidharan, V, Perini, M, Yoshino, O, Wong, BKL, Cox, DRA, Lee, E, Hepworth, G, Christophi, C, Jones, R, Dobrovic, A, Muralidharan, V, and Perini, M

Abstract

BACKGROUND AND AIM: The role of circulating mitochondrial DNA (cmtDNA) in transplantation remains to be elucidated. cmtDNA may be released into the circulation as a consequence of liver injury; yet recent work also suggests a causative role for cmtDNA leading to hepatocellular injury. We hypothesized that elevated cmtDNA would be associated with adverse events after liver transplantation (LT) and conducted an observational cohort study. METHODS: Twenty-one patients were enrolled prospectively prior to LT. RESULTS: Postoperative complications were observed in 47.6% (n = 10). Seven patients (33.3%) had early allograft dysfunction (EAD), and six patients (28.5%) experienced acute cellular rejection within 6 months of LT. cmtDNA levels were significantly elevated in all recipients after LT compared with healthy controls and preoperative samples (1 361 937 copies/mL [IQR 586 781-3 399 687] after LT; 545 531 copies/mL [IQR 238 562-1 381 015] before LT; and 194 562 copies/mL [IQR 182 359-231 515] in healthy controls) and returned to normal levels by 5 days after transplantation. cmtDNA levels were particularly elevated in those who developed EAD in the early postoperative period (P < 0.001). In all patients, there was initially a strong overall positive correlation between cmtDNA and plasma hepatocellular enzyme levels (P < 0.05). However, the patients with EAD demonstrated a second peak in cmtDNA at postoperative day 7, which did not correlate with liver function tests. CONCLUSIONS: The early release of plasma cmtDNA is strongly associated with hepatocellular damage; however, the late surge in cmtDNA in patients with EAD appeared to be independent of hepatocellular injury as measured by conventional tests.

Published

2021

5. Elevated Plasma Levels of Cell-Free DNA During Liver Transplantation Are Associated With Activation of Coagulation

Author

Yoshino, O, Muralidharan, V, Dobrovic, A, Goh, SK, Yoshino, O, Muralidharan, V, Dobrovic, A, and Goh, SK

Published

2020

6. Reamed locked intramedullary nailing for studying femur fracture and its complications

Author

Yoshino, O., Brady, J., Young, K., Hardy, B., Matthys, Romano, Buxton, T., Appleyard, Richard, Tomka, J., Dabirrahmani, Dane, Woodford, P., Fadia, Mitali, Steck, Roland, Quail, Anthony, Richards, R. Geoff, Balogh, Zsolt, Yoshino, O., Brady, J., Young, K., Hardy, B., Matthys, Romano, Buxton, T., Appleyard, Richard, Tomka, J., Dabirrahmani, Dane, Woodford, P., Fadia, Mitali, Steck, Roland, Quail, Anthony, Richards, R. Geoff, and Balogh, Zsolt

Published

2017