Highlights d CytoMAP is a user-friendly, comprehensive platform for spatial analysis of tissues d Allows quantification of cellular positioning and global tissue structure d Enables exploration of cellular and tissue microenvironment heterogeneity d CytoMAP reveals fundamental features of myeloid cell organization in lymph nodes
Microanatomical organization of innate immune cells within lymph nodes (LNs) is critical for the generation of adaptive responses. In particular, steady-state LN-resident dendritic cells (Res cDCs) are strategically localized to intercept lymph-draining antigens. Whether myeloid cell organization changes during inflammation and how that might affect the generation of immune responses are unknown. Here, we report that during type I, but not type II, inflammation after adjuvant immunization or viral infection, antigen-presenting Res cDCs undergo CCR7-dependent intranodal repositioning from the LN periphery into the T cell zone (TZ) to elicit T cell priming. Concurrently, inflammatory monocytes infiltrate the LNs via local blood vessels, enter the TZ, and cooperate with Res cDCs by providing polarizing cytokines to optimize T cell effector differentiation. Monocyte infiltration is nonuniform across LNs, generating distinct microenvironments with varied local innate cell composition. These spatial microdomains are associated with divergent early T cell effector programming, indicating that innate microenvironments within LNs play a critical role in regulating the quality and heterogeneity of T cell responses. Together, our findings reveal that dynamic modulation of innate cell microenvironments during type I inflammation leads to optimized generation of adaptive immune responses to vaccines and infections.
Small
molecule Toll-like receptor-7 and -8 agonists (TLR-7/8a)
can be used as vaccine adjuvants to induce CD8 T cell immunity but
require formulations that prevent systemic toxicity and focus adjuvant
activity in lymphoid tissues. Here, we covalently attached TLR-7/8a
to polymers of varying composition, chain architecture and hydrodynamic
behavior (∼300 nm submicrometer particles, ∼10 nm micelles
and ∼4 nm flexible random coils) and evaluated how these parameters
of polymer-TLR-7/8a conjugates impact adjuvant activity in vivo. Attachment
of TLR-7/8a to any of the polymer compositions resulted in a nearly
10-fold reduction in systemic cytokines (toxicity). Moreover, both
lymph node cytokine production and the magnitude of CD8 T cells induced
against protein antigen increased with increasing polymer-TLR-7/8a
hydrodynamic radius, with the submicrometer particle inducing the
highest magnitude responses. Notably, CD8 T cell responses induced
by polymer-TLR-7/8a were dependent on CCR2+ monocytes and IL-12, whereas
responses by a small molecule TLR-7/8a that unexpectedly persisted
in vaccine-site draining lymph nodes (T1/2 = 15 h) had less dependence
on monocytes and IL-12 but required Type I IFNs. This study shows
how modular properties of synthetic adjuvants can be chemically programmed
to alter immunity in vivo through distinct immunological mechanisms.
Recently developed approaches for highly-multiplexed 2-dimensional (2D) and 3D imaging have revealed complex patterns of cellular positioning and cell-cell interactions with important roles in both cellular and tissue level physiology. However, robust and accessible tools to quantitatively study cellular patterning and tissue architecture are currently lacking. Here, we developed a spatial analysis toolbox, Histo-Cytometric Multidimensional Analysis Pipeline (CytoMAP), which incorporates neural network based data clustering, positional correlation, dimensionality reduction, and 2D/3D region reconstruction to identify localized cellular networks and reveal fundamental features of tissue organization. We apply CytoMAP to study the microanatomy of innate immune subsets in murine lymph nodes (LNs) and reveal mutually exclusive segregation of migratory dendritic cells (DCs), regionalized compartmentalization of SIRPadermal DCs, as well as preferential association of resident DCs with select LN vasculature. These studies describe DC organization in LNs, and provide a comprehensive analytics toolbox for in-depth exploration of quantitative imaging datasets.
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