An optimized filter trap assay for detecting recombinant authentic tau fibrils.

The development and optimization of the Filter Trap Assay (FTA) for the detection of authentic tau fibrils mark a pivotal advancement in the realm of tauopathy research, particularly by addressing the limitations of using polyanion-induced tau fibrils, which structurally differ from those isolated from tauopathy patients. Recently it has been shown that truncated tau fragment (297-391), also termed dGAE, can form authentic tau fibrils in the absence of polyanions. This study introduces a refined protocol that reliably detects authentic tau fibrils in a physiologically relevant framework, utilizing nitrocellulose membranes to achieve heightened sensitivity.

Small Heat Shock Proteins Collaborate with FAIM to Prevent Accumulation of Misfolded Protein Aggregates.

Cells and tissues are continuously subject to environmental insults, such as heat shock and oxidative stress, which cause the accumulation of cytotoxic, aggregated proteins. We previously found that Fas Apoptosis Inhibitory Molecule (FAIM) protects cells from stress-induced cell death by preventing abnormal generation of protein aggregates similar to the effect of small heat shock proteins (HSPs). Protein aggregates are often associated with neurodegenerative diseases, including Alzheimer's disease (AD).

Microparticle immunocapture assay for quantitation of protein multimer amount and size.

Cellular stress and toxicity are often associated with the formation of protein multimers, or aggregates. Numerous degenerative disorders, including Alzheimer's, Parkinson's, and Huntington's disease, prion-propagated disease, amyotrophic lateral sclerosis, cardiac amyloidosis, and diabetes, are characterized by aggregated protein deposits. Current methods are limited in the ability to assess multimer size along with multimer quantitation and to incorporate one or more ancillary traits, including target specificity, operative simplicity, and process speed.

Fas Apoptosis Inhibitory Molecule Blocks and Dissolves Pathological Amyloid-β Species.

A number of neurodegenerative diseases are associated with the accumulation of misfolded proteins, including Alzheimer's disease (AD). In AD, misfolded proteins such as tau and amyloid-β (Aβ) form pathological insoluble deposits. It is hypothesized that molecules capable of dissolving such protein aggregates might reverse disease progression and improve the lives of afflicted AD patients.

FAIM Is a Non-redundant Defender of Cellular Viability in the Face of Heat and Oxidative Stress and Interferes With Accumulation of Stress-Induced Protein Aggregates.

A key element of cellular homeostasis lies in the way in which misfolded and dysfunctional proteins are handled. Cellular pathways that include proteasomal destruction and autophagic disposal are components of normal proteostasis. Here we report a novel molecule that plays a non-redundant role in maintaining homeostasis, Fas Apoptosis Inhibitory Molecule (FAIM).

FAIM Opposes Aggregation of Mutant SOD1 That Typifies Some Forms of Familial Amyotrophic Lateral Sclerosis.

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative illness that is unremittingly fatal and for which no effective treatment exists. All forms of ALS are characterized by protein aggregation. In familial forms of ALS, specific and heritable aggregation-prone proteins have been identified, such as mutant superoxide dismutase (SOD1).

CD25 B-1a Cells Express .

B-1a cells are innate-like B-lymphocytes producing natural antibodies. Activation-induced cytidine deaminase (AID), a product of the gene, plays a central role in class-switch recombination and somatic hypermutation in B cells. Although a role for in B-1a cells has been suggested on the basis of experiments with knock out (KO) mice, whether B-1a cells express , and if so, which B-1a cell subpopulation expresses , remains unknown.

A novel mechanism of B cell-mediated immune suppression through CD73 expression and adenosine production.

Immune suppression by regulatory T cells and regulatory B cells is a critical mechanism to limit excess inflammation and autoimmunity. IL-10 is considered the major mediator of B cell-induced immune suppression. We report a novel mechanism for immune suppression through adenosine generation by B cells.

A CD25⁻ positive population of activated B1 cells expresses LIFR and responds to LIF.

B1 B cells defend against infectious microorganisms by spontaneous secretion of broadly reactive "natural" immunoglobulin that appears in the absence of immunization. Among many distinguishing characteristics, B1 B cells display evidence of activation that includes phosphorylated STAT3. In order to identify the origin of pSTAT3 we examined interleukin-2 receptor (IL-2R) expression on B1 cells.

Fas apoptosis inhibitory molecule expression in B cells is regulated through IRF4 in a feed-forward mechanism.

Fas apoptosis inhibitory molecule (FAIM) was originally cloned as an inhibitor of Fas-mediated apoptosis in B cells that has been reported to affect multiple cell types. Recently, we found that FAIM enhances CD40L-mediated signal transduction, including induction of IFN regulatory factor (IRF)4, in vitro and augments plasma cell production in vivo. These results have keyed interest in the regulation of FAIM expression, about which little is known.

Fas apoptosis inhibitory molecule enhances CD40 signaling in B cells and augments the plasma cell compartment.

Fas apoptosis inhibitory molecule (FAIM) was cloned as a mediator of Fas resistance that is highly evolutionarily conserved but contains no known effector motifs. In this study, we report entirely new functions of FAIM that regulate B cell signaling and differentiation. FAIM acts to specifically enhance CD40 signaling for NF-kappaB activation, IRF-4 expression, and BCL-6 down-regulation in vitro, but has no effect on its own or in conjunction with LPS or anti-Ig stimulation.

Alteration of enzymatic properties of cell-surface antigen CD38 by agonistic anti-CD38 antibodies that prolong B cell survival and induce activation.

Leukocyte cell-surface antigen CD38 is a single-transmembrane protein. CD38 ligation by anti-CD38 antibodies triggers the growth or apoptosis of immune cells. Although the extracellular domain of CD38 has multifunctional catalytic activities including NAD(+) glycohydrolase and cyclase, the CD38-mediated cell survival or death appears to be independent of its catalytic activity.

B-1 cells express transgelin 2: unexpected lymphocyte expression of a smooth muscle protein identified by proteomic analysis of peritoneal B-1 cells.

B-1 cells constitute a unique B cell subset that differs phenotypically, biochemically, and functionally from the predominant population of conventional B-2 cells. Functional differences include constitutive secretion of natural immunoglobulin and failure of BCR signaling to initiate proliferation. The origin of these differences remains uncertain.

NF-kappaB is required for CD38-mediated induction of C(gamma)1 germline transcripts in murine B lymphocytes.

Ligation of CD38 on murine B cells with agonistic anti-CD38 mAb induces B cell proliferation, expression of germline gamma1 transcripts and enhances IL-5 receptor expression. This leads to Ig class switch recombination from the micro to gamma1 heavy chain gene, and high levels of IgM and lgG1 production, particularly in response to anti-CD38 and IL-5 co-stimulation. Although some of the post-receptor signaling events initiated by CD38 ligation have been characterized, signaling pathways involved in CD38-mediated germline gamma1 transcript expression in B cells are poorly understood.