The structural integrity of vaccine antigens is critical to the generation of protective antibody responses, but the impact of protease activity on vaccination in vivo is poorly understood. We characterized protease activity in lymph nodes and found that antigens were rapidly degraded in the subcapsular sinus, paracortex, and interfollicular regions, whereas low protease activity and antigen degradation rates were detected in the vicinity of follicular dendritic cells (FDCs). Correlated with these findings, immunization regimens designed to target antigen to FDCs led to germinal centers dominantly targeting intact antigen, whereas traditional immunizations led to much weaker responses that equally targeted the intact immunogen and antigen breakdown products. Thus, spatially compartmentalized antigen proteolysis affects humoral immunity and can be exploited.
SUMMARY
Treatments aiming to augment immune checkpoint blockade (ICB) in cancer often focus on T cell immunity, but innate immune cells may have important roles to play. Here, we demonstrate a single-dose combination treatment (termed AIP) using a pan-tumor-targeting antibody surrogate, half-life-extended interleukin-2 (IL-2), and anti-programmed cell death 1 (PD-1), which primes tumors to respond to subsequent ICB and promotes rejection of large established tumors in mice. Natural killer (NK) cells and macrophages activated by AIP treatment underwent transcriptional reprogramming; rapidly killed cancer cells; governed the recruitment of cross-presenting dendritic cells (DCs) and other leukocytes; and induced normalization of the tumor vasculature, facilitating further immune infiltration. Thus, innate cell-activating therapies can initiate critical steps leading to a self-sustaining cycle of T cell priming driven by ICB.
Opal-structured
thin-film hydrogel materials with micropatterns
hold great potential for utility in a wide range of sensing applications.
Micropatterning offers key advantages such as ready addressability,
high throughput assay, and multiplexing. However, controlled fabrication
of such films in a rapid, inexpensive, and reliable manner remains
a challenge. Existing techniques suffer from long opal deposition
times and often involve complex and arduous steps. In this report,
we examined a simple micromolding-based evaporation-polymerization
method for the fabrication of poly(ethylene glycol)-based hydrogel
films containing micropatterned opal structures. Specifically, intense
and uniform opalescent colors were achieved by evaporative deposition
of polystyrene bead solution in patterned micromolds. These opal micropatterns
were then captured in hydrogel films by simple photopolymerization
of a UV-curable PEG diacrylate solution. The as-prepared films show
high tunability as well as responsiveness to various environmental
cues readily manifested via shifts in color. Combined with UV–vis
reflectance spectroscopy and scanning electron microscopy results,
these findings illustrate the robust, simple, and reliable nature
of our integrated deposition-polymerization approach for controlled
fabrication of optically active and stimuli-responsive functional
materials. We thus envision that the results and the facile approach
reported here can be extended to many application areas including
environmental monitoring, diagnostics, and biosensing applications.
SUMMARYThe structural integrity of vaccine antigens is critical, because antigen breakdown in vivo could eliminate neutralizing epitopes and create competing B cell responses against irrelevant breakdown products. Using FRET imaging and imaging zymography, we found that protease activity and antigen breakdown are spatially heterogeneous in lymph nodes. Following protein immunization, antigens are rapidly degraded in the subcapsular sinus, paracortex, and interfollicular regions of the tissue. By contrast, the follicles and follicular dendritic cell (FDC) networks exhibit low protease activity and antigen degradation rates. Immunization regimens targeting antigen rapidly to FDCs led to germinal centers (GCs) where responses to intact antigen were highly dominant, while traditional bolus immunizations led to weaker GC responses where more GC B cells bound to breakdown products than intact antigen. Thus, spatially-compartmentalized antigen proteolysis impacts humoral immunity and can be exploited to enhance vaccine-induced production of antibody responses against key pathogen structural epitopes.
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