Sequence similarity of HSP65 of Mycobacterium bovis BCG with SARS-CoV-2 spike and nuclear proteins: may it predict an antigen-dependent immune protection of BCG against COVID-19?

The Bacillus Calmette-Guérin (BCG) vaccine is known to have protective effects not only against tuberculosis but also against other unrelated infectious diseases caused by different pathogens. Several epidemiological studies have also documented the beneficial influence of BCG vaccine in reducing both susceptibility to and severity of SARS-CoV-2 infection. The protective, non-specific effects of BCG vaccination would be related to an antigen-independent enhancement of the innate immunity, termed trained immunity.

A mutant α1antitrypsin in complex with heat shock proteins as the primary antigen in type 1 diabetes in silico investigation.

Based on previous results demonstrating that complexes of a mutant α1-antitrypsin with the heat shock proteins (HSP)70 and glucose-regulated protein94 (Grp94) circulate in the blood of patients with type 1 diabetes, we raised the hypothesis that these complexes could represent the primary antigen capable of triggering the autoimmune reactions leading to overt diabetes. As a first approach to this issue, we searched whether A1AT and HSPs had a sequence similarity to major islet antigen proteins so as to identify among the similar sequences those with potential relevance for the pathogenesis of diabetes. A thorough in silico analysis was performed to establish the score of similarity of the human proteins: A1AT, pro-insulin (INS), GAD65, IAPP, IA-2, ICA69, Grp94, HSP70 and HSP60.

Effects of purine-scaffold inhibitors on HUVECs: Involvement of the purinergic pathway and interference with ATP. Implications for preventing the adverse effects of extracellular Grp94.

Background: Extracellular Glucose-regulated protein94 (Grp94) is linked to pathological conditions disrupting the obligatory intracellular location of this Heat Shock Protein (HSP). In plasma, Grp94 is linked to IgG in complexes that drive adverse effects on vascular cells and are biomarker of gastro-intestinal cancer. By blocking ATP site in different HSPs, purine-scaffold inhibitors are used as promising anti-cancer compounds, but their effects on vasculature are not known.

Human IgGs induce synthesis and secretion of IgGs and neonatal Fc receptor in human umbilical vein endothelial cells.

Human IgGs are increasingly used in the therapy of many different immune and inflammatory diseases, however their mechanism of action still remains unclear in most diseases. To gain insight into the mechanism by which IgGs might also exert their effects on endothelial cells, we tested human IgGs on human umbilical vein endothelial cells (HUVECs). IgGs induced a time-dependent increase in the synthesis and secretion of IgGs, together with a marked angiogenic-like transformation of HUVECs that was maximal after a 20-h incubation.

Grp94 in complexes with IgG is a soluble diagnostic marker of gastrointestinal tumors and displays immune-stimulating activity on peripheral blood immune cells.

Glucose-regulated protein94 (Grp94), the most represented endoplasmic reticulum (ER)-resident heat shock protein (HSP), is a tumor antigen shared by different types of solid and hematological tumors. The tumor-specific feature of Grp94 is its translocation from the ER to the cell surface where it displays pro-oncogenic functions. This un-physiological location has important implications for both the tumor pathology and anti-tumor therapy.

Proteomic Investigation on Grp94-IgG Complexes Circulating in Plasma of Type 1 Diabetic Subjects.

The glucose-regulated protein94 (Grp94) has been found in complexes with IgG in plasma of Type 1 (T1) diabetic subjects; however, the pathogenetic meaning of Grp94-IgG complexes has not yet been elucidated. To shed light on the nature and structure of these complexes in vivo, we conducted a proteomic analysis on plasma of both T1 diabetic subjects and healthy control subjects. IgG purified from plasma was submitted to 2D PAGE followed by Western blotting and mass analysis.

Structure-activity relationship in a purine-scaffold compound series with selectivity for the endoplasmic reticulum Hsp90 paralog Grp94.

Grp94 is involved in the regulation of a restricted number of proteins and represents a potential target in a host of diseases, including cancer, septic shock, autoimmune diseases, chronic inflammatory conditions, diabetes, coronary thrombosis, and stroke. We have recently identified a novel allosteric pocket located in the Grp94 N-terminal binding site that can be used to design ligands with a 2-log selectivity over the other Hsp90 paralogs. Here we perform extensive SAR investigations in this ligand series and rationalize the affinity and paralog selectivity of choice derivatives by molecular modeling.

Structural insights into complexes of glucose-regulated Protein94 (Grp94) with human immunoglobulin G. relevance for Grp94-IgG complexes that form in vivo in pathological conditions.

While the mechanism by which Grp94 displays its chaperone function with client peptides in the cell has been elucidated extensively, much less is known about the nature and properties of how Grp94 can engage binding to proteins once it is exposed on the cell surface or liberated in the extra-cellular milieu, as occurs in pathological conditions. In this work, we wanted to investigate the molecular aspects and structural characteristics of complexes that Grp94 forms with human IgG, posing the attention on the influence that glycosylation of Grp94 might have on the binding capacity to IgG, and on the identification of sites involved in the binding. To this aim, we employed both native, fully glycosylated and partially glycosylated Grp94, and recombinant, non-glycosylated Grp94, as well as IgG subunits, in different experimental conditions, including the physiological setting of human plasma.

Paralog-selective Hsp90 inhibitors define tumor-specific regulation of HER2.

Although the Hsp90 chaperone family, comprised in humans of four paralogs, Hsp90α, Hsp90β, Grp94 and Trap-1, has important roles in malignancy, the contribution of each paralog to the cancer phenotype is poorly understood. This is in large part because reagents to study paralog-specific functions in cancer cells have been unavailable. Here we combine compound library screening with structural and computational analyses to identify purine-based chemical tools that are specific for Hsp90 paralogs.

Inhibition of immunoglobulin secretion from peripheral blood mononuclear cells by glucose-regulated protein94 (Grp94) in allergic subjects.

Glucose-regulated protein94 (Grp94) is the most represented endoplasmic reticulum-resident HSP with the unique property to modulate the immune response. This has opened the way to the use of Grp94 as effective therapeutic agent in both depressed and exaggerated activity of the immune system. We investigated the effect of native Grp94 on peripheral blood mononuclear cells (PBMCs) isolated from blood of two subjects with a different history of bronchial allergic asthma.

Crucial role of HSP90 in the Akt-dependent promotion of angiogenic-like effect of glucose-regulated protein94 (Grp94)-IgG complexes.

Previous observations showed that complexes of glucose-regulated protein94 (Grp94) with human IgG, both those isolated from plasma of diabetic subjects and complexes formed in vitro, displayed cytokine-like effects on human umbilical vein endothelial cells (HUVECs), including angiogenic-like transformation capacity that predicted an increased risk of vascular damage. The aim of the present work was to find an effective inhibitor of the angiogenic-like effect of Grp94-IgG complexes. Because this effect is mediated by an increased expression of matrix metalloprotease-9 (MMP-9), we tested the selective MMP-9 inhibitor, the cyclic decapeptide CTT (CTTHWGFTLC) at 5, 10 and 20 μM.

Effects of glucose-regulated protein94 (Grp94) on Ig secretion from human blood mononuclear cells.

Grp94 is the main endoplasmic reticulum-resident heat shock protein (HSP) that besides chaperoning native proteins, displays important modulatory effects on both the innate and adaptive immune response. Since the knowledge of a direct influence of Grp94 on the humoral response is lacking, in this work we tested the effect of Grp94 on Ig secretion from peripheral blood mononuclear cells (PBMCs) of five normal volunteers. The concentration of Ig secreted in the medium after incubation of 15 days was found increased in a dose-dependent manner in the presence of Grp94, used at the final concentrations of 10 and 100 ng/ml.

Stable complexes formed by Grp94 with human IgG promoting angiogenic differentiation of HUVECs by a cytokine-like mechanism.

To explore the molecular mechanisms by which complexes of Grp94 with IgG, purified from the plasma of diabetic subjects, could drive an inflammatory risk in vascular cells, native Grp94 was co-incubated with human, non-immune IgG to obtain the formation of complexes that were then tested on human umbilical vein endothelial cells (HUVECs). Co-incubation of Grp94 with IgG led to the formation of stable, SDS-resistant complexes that displayed effects partly similar and partly significantly different from those of Grp94 alone. Both Grp94 alone and with IgG stimulated the cell growth and promoted angiogenesis by a mechanism of autocrine/paracrine activation of the expression of heat shock protein (HSP)90 and HSP70.

Angiogenic transforming capacity of IgG purified from plasma of type 1 diabetic patients.

We previously demonstrated that plasma of type 1 diabetic patients contains antibodies complexed irreversibly with Grp94 that also display proteolytic activity. In this work, we wanted to test whether antibodies obtained from diabetic plasma may convey an inflammatory risk on vascular cells. To this aim, IgG were purified on the Protein-G column from individual plasma of eight type 1 diabetic patients, and then tested on HUVECs to measure effects on cell growth and morphologic changes at different incubation times.

The role played by serine proteases in the development and worsening of vascular complications in type 1 diabetes mellitus.

Much attention has been given to the role played by serine proteases in the development and worsening of vascular complications in Type 1 diabetes mellitus. A generalized increase in proteolytic activity, either due to a true increase in concentration of specific proteases or defects of their protease inhibitors, represents an early marker of diabetes. However, the precise molecular mechanism whereby an unopposed proteolytic activity leads to overt vascular alterations has not fully been elucidated as yet.

Characterization of immune complexes of idiotypic catalytic and anti-idiotypic inhibitory antibodies in plasma of type 1 diabetic subjects.

An increase in proteolytic activity is an early common feature of diabetes, and is associated with the development of vascular complications. We performed an extensive proteomic investigation on plasma of type 1 diabetic subjects to discover why some of them apparently lacked any measurable proteolytic activity. Activity was found enclosed in immune complexes in which Fab/(Fab)(2) displayed a serine-like catalytic activity.

A heat shock protein70 fusion protein with alpha1-antitrypsin in plasma of type 1 diabetic subjects.

The recent observation that heat shock proteins (HSPs), mostly glucose regulated protein94 (Grp94) and HSP70, are present in plasma of Type 1 diabetic subjects as complexes with immunoglobulins, prompted us to investigate the nature and extent of this association, whether it represents HSP-induced activation of the immune system. Two complementary affinity chromatography procedures followed by immunoprecipitation and immunoblot analyses of HSP-enriched, plasma-purified peaks, revealed that HSPs were inextricably linked with IgG in SDS-resistant complexes from which proteins dissociate partially under reducing treatment. HSP70 was found also closely linked with alpha1-antitrypsin (alpha1AT) in a single protein having the mass of alpha1AT but elution characteristics different from those of normal alpha1AT.