Low endotoxin recovery (LER) is a recently discovered phenomenon describing the inability of limulus amebocyte lysate (LAL)-based assays to detect lipopolysaccharide (LPS) because of a “masking effect” caused by chelators or detergents commonly used in buffer formulations for medical products and recombinant proteins. This study investigates the masking capacities of different buffer formulations and whether masked endotoxin is biologically active. We show that both naturally occurring endotoxin as well as control standard endotoxin can be affected by LER. Furthermore, whereas masked endotoxin cannot be detected in Factor C based assays, it is still detectable in a cell-based TLR4-NF-κB-luciferase reporter gene assay. Moreover, in primary human monocytes, masked LPS induces the expression of pro-inflammatory cytokines and surface activation markers even at very low concentrations. We therefore conclude that masked LPS is a potent trigger of immune responses, which emphasizes the potential danger of masked LPS, as it may pose a health threat in pharmaceutical products or compromise experimental results.
BackgroundRagweed pollen represents a major allergy risk factor. Ragweed
extracts contain five different isoforms of the major allergen Amb a 1.
However, the immunological characteristics of Amb a 1 isoforms are not fully
investigated. Here, we compared the physicochemical and immunological
properties of three most important Amb a 1 isoforms.MethodsAfter purification, the isoforms were physicochemically
characterized, tested for antibody binding and induction of human T-cell
proliferative responses. Their immunological properties were further
evaluated in vitro and in vivo in a mouse model.ResultsAmb a 1 isoforms exhibited distinct patterns of IgE binding and
immunogenicity. Compared to Amb a 1.02 or 03 isoforms, Amb a 1.01 showed
higher IgE-binding activity. Isoforms 01 and 03 were the most potent
stimulators of patients’ T cells. In a mouse model of immunization,
Amb a 1.01 induced higher levels of IgG and IgE antibodies when compared to
isoforms 02 and 03. Interestingly, ragweed-sensitized patients also
displayed an IgG response to Amb a 1 isoforms. However, unlike
therapy-induced antibodies, sensitization-induced IgG did not show
IgE-blocking activity.ConclusionThe present study showed that naturally occurring isoforms of Amb a 1
possess different immunogenic and sensitizing properties. These findings
should be considered when selecting sequences for molecule-based diagnosis
and therapy for ragweed allergy. Due to its high IgE-binding activity,
isoform Amb a 1.01 should be included in diagnostic tests. In contrast, due
to their limited B- and T-cell cross-reactivity patterns, a combination of
different isoforms might be a more attractive strategy for ragweed
immunotherapy.
Background: Cathepsin L (Ctsl) is a cysteine protease mainly located within the endosomal/lysosomal cell compartment. High expression of Ctsl indicates poor prognosis in human breast cancer. However, the cell type-specific Ctsl functions responsible for this association remain elusive. Methods: Because constitutive Ctsl−/− mice develop a complex phenotype, we developed a conditional model allowing for cell type-specific inactivation of Ctsl in mammary epithelium or myeloid cells in the transgenic mouse mammary tumor virus (MMTV)-polyoma middle T (PyMT) breast cancer model. Results: Ctsl ablation in mammary epithelial cells resulted in delayed initiation and end-stage of cancers. The latter displayed large dead cell areas. Inducible in vitro deletion of Ctsl in MMTV-PyMT-derived breast cancer cells revealed expansion of the acidic cell compartment, alteration of intracellular amino acid levels, and impaired mTOR signaling. In consequence, Ctsl-deficient cells exhibited slow growth rates and high apoptosis susceptibility. In contrast to Ctsl-deficient mammary epithelium, selective knockout of Ctsl in myeloid cells had no effects on primary tumors, but promoted lung metastasis formation. Conclusions: Our cell type-specific in vivo analysis provides strong evidence for a cancer cell-intrinsic, tumor-promoting role of Ctsl in primary breast cancer, whereas metastasis is negatively regulated by Ctsl expressed by bone marrow-derived cells.
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