Robert Deleys scite author profile

Lymphoproliferation and gamma interferon (IFN-y) secretion in response to 28 overlapping 20-mer synthetic peptides covering the complete sequence of the mature (295-amino-acid) 85A component of the major secreted, fibronectin-binding antigen 85 complex from Mycobacterium tuberculosis and Mycobacterium bovis BCG (MTAg85A) was examined by using peripheral blood mononuclear cell (PBMC) cultures from healthy tuberculinand lepromin-positive volunteers and from patients with tuberculosis and leprosy. Peptide recognition was largely promiscuous, with a variety of human leukocyte antigen haplotypes reacting to the same peptides. PBMC from all tuberculin-positive subjects reacted to Ag85, and the majority proliferated in response to peptide 6 (amino acids 51 to 70), peptides 13, 14, and 15 (amino acids 121 to 160), or peptides 20 and 21 (amino acids 191 to 220). PBMC from tuberculosis patients demonstrated a variable reactivity to Ag85 and its peptides, and the strongest proliferation was observed against peptide 7 (amino acids 61 to 80). MTAg85A peptides were also recognized by PBMC from healthy lepromin-positive volunteers and paucibacillary leprosy patients (again in a promiscuous manner), but despite a 90%o homology between the 85A proteins ofM. leprae and M. tuberculosis, the peptides recognized were different. PBMC from lepromin-positive healthy contacts reacted against peptide 2 (amino acids 11 to 30), peptide 5 (amino acids 41 to 60), and peptides 25 and 26 (amino acids 241 to 270). PBMC from paucibacillary patients reacted preferentially against peptide 1 (amino acids 1 to 20) and peptide 5. Multibacillary patients were not reactive to Ag85 or the MT85A peptides. IFN-y production was generally detected simultaneously with positive lymphoproliferative responses, although peptide 1 mostly stimulated proliferation and peptides 27 and 28 mostly elicited an IFN-y response. In conclusion, regions 41 to 80 and 241 to 295 demonstrated powerful and promiscuous T-cell-stimulatory properties, resulting in proliferative responses and IFN-y secretion, respectively, in the majority of reactive

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Efficacy of a hepatitis C virus core antigen enzyme‐linked immunosorbent assay for the identification of ‘window‐phase’ blood donations

Lee¹,

Peterson

Niven

et al. 2001

Vox Sanguinis

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Sequence evolution of the hypervariable region in the putative envelope region E2/NS1 of hepatitis C virus is correlated with specific humoral immune responses

Doorn

Capriles

Maertens

et al. 1995

J Virol

136

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Sequence evolution of the hypervariable region 1 (HVR1) in the N terminus of E2/NS1 of hepatitis C virus (HCV) was studied retrospectively in six chimpanzees inoculated with the same genotype 1b strain, containing a unique predominant HVR1 sequence. Immediately after inoculation, all animals contained the same HVR predominant sequence. Two animals developed an acute self-limiting infection. Anti-HVR1 immunoglobulin G (IgG) was produced 40 to 60 days after inoculation and rapidly disappeared after normalization of transaminases. Another chimpanzee, previously infected with human immunodeficiency virus type 1, showed a delayed response to HVR1 epitopes after superinfection with HCV. No sequence variation of HVR1 was observed in these two animals during the transient viremia in the acute phase. Three other chimpanzees developed a chronic HCV infection. During follow up, sequence evolution occurred in two animals and their anti-HVR1 response remained at varying but detectable levels. The first mutations occurred immediately after the production of anti-HVR1 during the acute phase. However, IgM anti-HVR1 was not detectable. Remarkably, HVR1 sequences remained conserved for more than 6 years in another chronically infected animal. This correlated with the complete absence of detectable anti-HVR1 during this period. Seven years after inoculation, anti-HVR1 IgG was produced and coincided with an HVR1 alteration. These results strongly suggest the involvement of neutralizing anti-HVR antibodies in sequence evolution of HVR1 through immune selection.

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Lymphoproliferative responses to hepatitis C virus core, E1, E2, and NS3 in patients with chronic hepatitis C infection treated with interferon alfa

Leroux‐Roels¹,

Esquivel²,

Deleys³

et al. 1996

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, and NS3 were recognized HCV-specific CD8/ cytotoxic T lymphocytes (CTL) able less frequently. This recognition pattern was not related to recognize and kill target cells expressing core, E1, to the therapy with IFN-a nor to the clinical response E2, and NS2 proteins in an HLA class I restricted manof the patient toward this therapy. The response to the ner, could be isolated from liver tissue of chronic hepaCore protein could be fine-mapped to the COOH-termi-titis C patients. [5][6][7] In addition, peripheral blood mononuclear cells (PBMC) from such patients also displayed CTL responses to core, NS3, NS4, and NS5 epitopes

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Robert Deleys

Phylogenetic analysis of gag genes from 70 international HIV-1 isolates provides evidence for multiple genotypes

T-cell-epitope mapping of the major secreted mycobacterial antigen Ag85A in tuberculosis and leprosy

Efficacy of a hepatitis C virus core antigen enzyme‐linked immunosorbent assay for the identification of ‘window‐phase’ blood donations

Sequence evolution of the hypervariable region in the putative envelope region E2/NS1 of hepatitis C virus is correlated with specific humoral immune responses

Lymphoproliferative responses to hepatitis C virus core, E1, E2, and NS3 in patients with chronic hepatitis C infection treated with interferon alfa

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