Zizi Yu scite author profile

Evidence suggests that distinct splenic dendritic cell (DC) subsets activate either CD4+ or CD8+ T cells in vivo. This bias has been partially ascribed to differential antigen presentation; however, all DC subsets can activate both T cell lineages in vitro. Therefore, we tested whether the organization of DC and T cell subsets in the spleen dictated this preference. We discovered that CD4+ and CD8+ T cells segregated within splenic T cell zones prior to immunization. After intravenous immunization, the two major conventional DC populations, distinguished by 33D1 and XCR1 staining, migrated into separate regions of the T cell zone: 33D1+ DCs migrated into the CD4+ T cell area, whereas XCR1+ DCs migrated into the CD8+ T cell area. Thus, the post-immunization location of each DC subset correlated with the T cell lineage it preferentially primes. Preventing this co-localization selectively impaired either CD4+ or CD8+ T cell immunity to blood-borne antigens.

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Financial worry and psychological distress among cancer survivors in the United States, 2013—2018

Dee

Nipp

Muralidhar

et al. 2021

Support Care Cancer

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Benign T cells drive clinical skin inflammation in cutaneous T cell lymphoma

Vieyra-Garcia¹,

Crouch²,

O’Malley³

et al. 2019

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Early Activation of Experience-Independent Dendritic Spine Turnover in a Mouse Model of Alzheimer's Disease

Heiss

Barrett

et al. 2016

Cereb. Cortex

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Synaptic loss is critical in Alzheimer's disease (AD), but the dynamics of synapse turnover are poorly defined. We imaged dendritic spines in transgenic APPswe/PSen1∆E9 (APP/PS1) cerebral cortex. Dendritic spine turnover is increased far from plaque in aged APP/PS1 mice, and in young APP/PS1 mice prior to plaque formation. Dysregulation occurs in the presence of soluble Aβ oligomer and requires cellular prion protein (PrPC). APP/PS1 mice lack responsiveness of spine turnover to sensory stimulation. Critically, enhanced spine turnover is coupled with the loss of persistent spines starting early and continuing with age. To evaluate mechanisms of experience-independent supranormal spine turnover, we analyzed the transcriptome of young APP/PS1 mouse brain when turnover is altered but synapse density and memory are normal, and plaque and inflammation are absent. Early PrPC-dependent expression changes occur in synaptic and lipid-metabolizing genes. Thus, pathologic synaptic dysregulation underlying AD begins at a young age prior to Aβ plaque.

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Zizi Yu

Differential Intrasplenic Migration of Dendritic Cell Subsets Tailors Adaptive Immunity

Financial worry and psychological distress among cancer survivors in the United States, 2013—2018

Benign T cells drive clinical skin inflammation in cutaneous T cell lymphoma

Early Activation of Experience-Independent Dendritic Spine Turnover in a Mouse Model of Alzheimer's Disease

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