Mutasim Elfahal scite author profile

Endocytosis of the Flaviviridae viruses, hepatitis C virus, GB virus C͞hepatitis G virus, and bovine viral diarrheal virus (BVDV) was shown to be mediated by low density lipoprotein (LDL) receptors on cultured cells by several lines of evidence: by the demonstration that endocytosis of these virus correlated with LDL receptor activity, by complete inhibition of detectable endocytosis by anti-LDL receptor antibody, by inhibition with anti-apolipoprotein E and -apolipoprotein B antibodies, by chemical methods abrogating lipoprotein͞LDL receptor interactions, and by inhibition with the endocytosis inhibitor phenylarsine oxide. Confirmatory evidence was provided by the lack of detectable LDL receptor on cells known to be resistant to BVDV infection. Endocytosis via the LDL receptor was shown to be mediated by complexing of the virus to very low density lipoprotein or LDL but not high density lipoprotein. Studies using LDL receptor-deficient cells or a cytolytic BVDV system indicated that the LDL receptor may be the main but not exclusive means of cell entry of these viruses. Studies on other types of viruses indicated that this mechanism may not be exclusive to Flaviviridae but may be used by viruses that associate with lipoprotein in the blood. These findings provide evidence that the family of LDL receptors may serve as viral receptors. H epatitis C virus (HCV), the principal viral cause of chronic hepatitis, is not readily replicated in cell culture systems, and, as yet, no information on cell receptors for the virus is available. However, several observations from studies on the role of HCV in mixed cryoglobulinemia (1-3) have provided some insights to HCV entry into cells.Mixed cryoglobulinemia is a systemic vasculitis associated with cold-precipitable immunoglobulins in the blood. During the past 5 years, a strong association of HCV infection with mixed cryoglobulins has been established (4), and the specific concentration of HCV in type II mixed cryoglobulins that consist of polyclonal IgG and monoclonal IgM has been demonstrated (1). It also was shown that very low density lipoprotein (VLDL) is selectively associated with HCV in type II cryoglobulins (2). In studies on the cutaneous vasculitic lesions in type II cryoglobulinemia using in situ hybridization (ISH), the HCV RNA virion form (positive strand) but not the putative replicative form (negative strand) of the virus was detected in keratinocytes in lesions but not normal skin of the same patients (3). Furthermore, it was demonstrated that LDL receptors were upregulated on keratinocytes in cutaneous vasculitis lesions compared with normal skin (3). These observations and the finding that anti-␤ lipoprotein precipitates HCV from infected serum (5) suggested that the low density lipoprotein (LDL) receptor also may be a receptor for HCV complexed to VLDL or LDL. This hypothesis led to this study to determine whether the LDL receptor is also a receptor for HCV and other members of the family of viruses Flaviviridae. Materials and Methods

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Detection of WA B cells in hepatitis C virus infection: A potential prognostic marker for cryoglobulinemic vasculitis and B cell malignancies

Knight

Gao

Gragnani

et al. 2010

Arthritis & Rheumatism

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Objective. An uncommon manifestation of hepatitis C virus (HCV) infection is systemic vasculitis associated with type II cryoglobulinemia (cryoglobulinemic vasculitis), a proliferative B cell disorder that transforms into B cell malignancy in 5-10% of patients. The monoclonal rheumatoid factors (mRF) that bear the WA cross-idiotype (Xid) are responsible for most cases of cryoglobulinemic vasculitis in patients with HCV infection. The purpose of this study was to determine whether WA B cells can be detected in asymptomatic patients with HCV infection, using sequence analysis of B cell clonal expansions (BCEs) to identify the WA Xid.Methods. Asymptomatic patients with HCV infection and those without HCV infection as well as respective control patients with cryoglobulinemic vasculitis, whose serum was either negative or positive for WA mRF, were studied. BCEs were isolated in the patients' blood, and WA BCEs were identified by sequencing analysis.Results. BCEs were detected in all control patients with cryoglobulinemic vasculitis, but only control patients with HCV infection had WA BCEs. None of the 33 asymptomatic patients without HCV infection had a BCE. WA BCEs were detected in 4 (7.4%) of 55 asymptomatic patients with HCV infection, in none of 14 patients with HCV infection and type III cryoglobulinemia, and in 5 (13.5%) of 37 patients with HCV infection and serum RF positivity. One patient with a WA BCE had splenic lymphoma markers and villous lymphocytes, and the villous lymphocytes were found to be WA B cells. There are ϳ4 million patients with hepatitis C virus (HCV) infection in the United States and ϳ170 million infected patients worldwide. An extrahepatic manifestation of this disease is the development of type II cryoglobulins that consist of polyclonal IgG and monoclonal IgM rheumatoid factors (mRF). Eighty percent of the mRF (1) are unique to patients with HCV infection. These antibodies are encoded by germline genes (2) and have an antibody-combining site crossidiotype (Xid) (3) known as the WA Xid. It has been demonstrated that HCV is concentrated in the type II cryoglobulins (4). Antiviral therapy induces the decline of the WA B cells that produce WA mRF and cryoglobulinemia, in parallel with the decline in viremia (5-7). Thus, it is hypothesized that the production of WA mRF is driven by HCV.

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Comparison of Tissue Molecular Biomarker Testing Turnaround Times and Concordance Between Standard of Care and the Biocartis Idylla Platform in Patients With Colorectal Cancer

Tsongalis

Turkmani

Suriawinata

et al. 2020

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Abstract Objectives Management of colorectal cancer warrants mutational analysis of KRAS/NRAS when considering anti–epidermal growth factor receptor therapy and BRAF testing for prognostic stratification. In this multicenter study, we compared a fully integrated, cartridge-based system to standard-of-care assays used by participating laboratories. Methods Twenty laboratories enrolled 874 colorectal cancer cases between November 2017 and December 2018. Testing was performed on the Idylla automated system (Biocartis) using the KRAS and NRAS-BRAF cartridges (research use only) and results compared with in-house standard-of-care testing methods. Results There were sufficient data on 780 cases to measure turnaround time compared with standard assays. In-house polymerase chain reaction (PCR) had an average testing turnaround time of 5.6 days, send-out PCR of 22.5 days, in-house Sanger sequencing of 14.7 days, send-out Sanger of 17.8 days, in-house next-generation sequencing (NGS) of 12.5 days, and send-out NGS of 20.0 days. Standard testing had an average turnaround time of 11 days. Idylla average time to results was 4.9 days with a range of 0.4 to 13.5 days. Conclusions The described cartridge-based system offers rapid and reliable testing of clinically actionable mutation in colorectal cancer specimens directly from formalin-fixed, paraffin-embedded tissue sections. Its simplicity and ease of use compared with other molecular techniques make it suitable for routine clinical laboratory testing.

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Cryoglobulin types and rheumatoid factors associated with clinical manifestations in patients with hepatitis C virus infection

Agnello

Elfahal

2007

Digestive and Liver Disease

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Mutasim Elfahal

Hepatitis C virus and other Flaviviridae viruses enter cells via low density lipoprotein receptor

Detection of WA B cells in hepatitis C virus infection: A potential prognostic marker for cryoglobulinemic vasculitis and B cell malignancies

Comparison of Tissue Molecular Biomarker Testing Turnaround Times and Concordance Between Standard of Care and the Biocartis Idylla Platform in Patients With Colorectal Cancer

Cryoglobulin types and rheumatoid factors associated with clinical manifestations in patients with hepatitis C virus infection

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