Dendritic Cells (DCs) recognize infectious non-self molecules and engage the adaptive immune system thereby initiating long lasting, antigen-specific responses. As such, the ability to activate DCs is considered a key tool to enhance the efficacy and quality of vaccination. Here we report a novel immunomodulatory sulfolipid named β-SQDG18 that prototypes a class of natural-derived glycolipids able to prime human DCs by a TLR2/TLR4-independent mechanism and trigger an efficient immune response in vivo. β-SQDG18 induces maturation of DC with the upregulation of MHC II molecules and co-stimulatory proteins (CD83, CD86), as well as pro-inflammatory cytokines (IL-12 and INF-γ). Mice immunized with OVA associated to β-SQDG18 (1:500) produced a titer of anti-OVA Ig comparable to traditional adjuvants. In an experimental model of melanoma, vaccination of C57BL/6 mice with β-SQDG18-adjuvanted hgp10 peptide elicited a protective response with a reduction in tumour growth and increase in survival.
Adjuvants are components of vaccine
that enhance the specific immune
response against co-inoculated antigens. Recently, we reported the
characterization of a synthetic sulfolipid named Sulfavant A (
1
) as a promising candidate of a novel class of molecular
adjuvants based on the sulfoquinovosyl-diacylglycerol skeleton. Here,
we report an improved synthesis of the sulfolipid scaffold, as well
as the preparation of two analogs named Sulfavant-S (
2
) and Sulfavant-R (
3
) with enhanced property to modulate
master immune targets such as human dendritic cells (DCs). According
to the present approach, synthesis of
1
is reduced from
14 to 11 steps with nearly triplication of the overall yield (11%).
The new members
2
and
3
elicit DC maturation
at a concentration of 10 nM, which is 1000 times more potent than
the parent molecule
1
. Analysis of dynamic light scattering
indicates self-assembly of Sulfavants and formation of colloidal particles
with a small hydrodynamic radius (50 nm) for the epimers
2
and
3
and a larger radius (150 nm) for
1
. The colloidal aggregates are responsible for the bell-shaped dose–response
curve of these products. We conclude that the particle size also affects
the equilibrium with free monomers, thus determining the effective
concentration of the sulfolipid molecule at the cellular targets and
the different immunological efficacy of
1–3
. Sulfavants
(
1–3
) do not show in vitro cytotoxicity at concentrations
10
5
higher than the dose that triggers maximal immune response,
thus predicting a low level of toxicological risk in their formulation
in vaccines.
Reduced activation of energy metabolism increases adiposity in humans and other mammals. Thus, exploring dietary and molecular mechanisms able to improve energy metabolism is of paramount medical importance because such mechanisms can be leveraged as a therapy for obesity and related disorders. Here, we show that a designer protein-deprived diet enriched in free essential amino acids can
1
) promote the brown fat thermogenic program and fatty acid oxidation,
2
) stimulate uncoupling protein 1 (UCP1)-independent respiration in subcutaneous white fat,
3
) change the gut microbiota composition, and
4
) prevent and reverse obesity and dysregulated glucose homeostasis in multiple mouse models, prolonging the healthy life span. These effects are independent of unbalanced amino acid ratio, energy consumption, and intestinal calorie absorption. A brown fat-specific activation of the mechanistic target of rapamycin complex 1 seems involved in the diet-induced beneficial effects, as also strengthened by in vitro experiments. Hence, our results suggest that brown and white fat may be targets of specific amino acids to control UCP1-dependent and -independent thermogenesis, thereby contributing to the improvement of metabolic health.
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