Phage Display and Peptide Mapping of an Immunoglobulin Light Chain Fibril-Related Conformational Epitope

O’Nuallain, Brian; Allen, Ace; Ataman, Demet; Weiss, Deborah; Solomon, and Alan; Wall, Jonathan S.

doi:10.1021/bi701255m

Cited by 18 publications

(20 citation statements)

References 52 publications

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“…Although proteolysis of the precursor protein is common in amyloid fibrils (Bohne et al, 2004; Monti et al, 2005; Röcken et al, 2006; Enqvist et al, 2009), this is the first example of fibril-specific mAbs that target a neo-epitope formed as a result of proteolytic cleavage. In contrast, other reported anti-fibril-mAbs bind conformational epitopes present on the non-native, fibrillar form of the amyloid precursor protein, but not the native, soluble, circulating molecule (O’Nuallain et al, 2005, 2007). …”

Section: Discussionmentioning

confidence: 92%

Generation and Characterization of Anti-AA Amyloid-Specific Monoclonal Antibodies

Wall¹,

Kennel²,

Richey³

et al. 2011

Front. Immun.

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AA amyloidosis results from the pathologic deposition in the kidneys and other organs of fibrils composed of N-terminal fragments of serum amyloid A protein (SAA). Given that there are only limited means to visualize these deposits, we have developed a series of mAbs, 2A4, 7D8, and 8G9, that bind specifically with nanomolar affinity to a carboxy-terminal epitope generated following proteolysis of SAA that yields the predominant component of AA amyloid deposits. Notably, these antibodies do not recognize native SAA, they retain their immunoreactivity when radiolabeled with I-125 and, after injection into AA amyloidotic mice, localize, as evidenced by autoradiography and micro-single photon emission computed tomography imaging, to histologically confirmed areas of amyloid deposition; namely, spleen, liver, and pancreas. The results of our in vitro and in vivo studies demonstrate the AA fibril-selectivity of mAbs 2A4, 7D8, and 8G9 and warrant further investigation into their role as novel diagnostic agents for patients with AA amyloidosis.

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Section: Discussionmentioning

confidence: 92%

Generation and Characterization of Anti-AA Amyloid-Specific Monoclonal Antibodies

Wall¹,

Kennel²,

Richey³

et al. 2011

Front. Immun.

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“…10,11 Thus, the inability of the radiolabeled antibody to bind certain AL deposits, both in vivo and in vitro, may reflect a Consecutive tissue sections from each patient (AL 2, lymph node; AL 11, bone marrow, and AL 12, liver) were subjected to histochemical (HC) staining with Congo red (CR, top) or immunohistochemical (IHC) studies using, as primary reagent, mAb 11-1F4 (middle), or, as a negative control, the antibody preincubated with a 22-mer peptide containing the conformational fibril-related epitope recognized by mAb 11-1F4 (bottom). Photomicrographs were acquired with a Leica DM 500 light microscope equipped with cross-polarizing filters.…”

Section: Resultsmentioning

confidence: 99%

“…10,11 Furthermore, when administered to mice bearing subcutaneous human AL amyloidomas, the antibody bound to the pathologic material and initiated an inflammatory response that led to elimination of the induced tumors. 12 Notably, we also demonstrated that m11-1F4, after radiolabeling with the positron-emitting isotope I-124, imaged the xenograft, as evidenced by micropositron emission tomography/computed tomography (PET/CT).…”

Section: Introductionmentioning

confidence: 99%

Radioimmunodetection of amyloid deposits in patients with AL amyloidosis

Wall¹,

Kennel²,

Stuckey³

et al. 2010

Blood

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Care of patients with AL amyloidosis currently is limited by the lack of objective means to document disease extent, as well as therapeutic options that expedite removal of pathologic deposits. To address these issues, we have initiated a Phase I Exploratory IND study to determine the biodistribution of the fibrilreactive, amyloidolytic murine IgG1 mAb 11-1F4 labeled with I-124. Patients were infused with less than 1 mg (ϳ 74 MBq) of GMP-grade antibody and imaged by PET/CT scan 48 and 120 hours later. Among 9 of 18 subjects, there was striking uptake of the reagent in liver, lymph nodes, bone marrow, intestine, or, unexpectedly, spleen (but not kidneys or heart). Generally, positive or negative results correlated with those obtained immunohistochemically using diagnostic tissue biopsy specimens. Based on these findings, we posit that 124 I-mAb m11-1F4 can be used to identify AL candidates for passive immunotherapy using the chimeric form of the antibody. This trial was registered at www.clinicaltrials.gov as NCT00807872. (Blood. 2010;116(13): 2241-2244) IntroductionLight chain-associated (AL) amyloidosis is a monoclonal plasma cell dyscrasia characterized by the pathologic deposition in vital tissues of fibrils formed from or immunoglobulin (Ig) light chain-related components. 1-3 The relentless accumulation of such fibrillar material typically leads to progressive organ dysfunction and death within 18 to 36 months. In the case of cardiac involvement, the prognosis is even more ominous, with a survival time of 3 to 9 months; fewer than 5% of all AL amyloidosis patients live more than 10 years after diagnosis. 4 Currently, therapeutic options are limited to diminishing light chain production with anti-plasma cell chemotherapy (eg, melphalan and/or corticosteroids) given in conventional amounts or high doses combined with autologous stem cell transplantation. [4][5][6][7][8][9] This approach, which is based on the premise that reduction in synthesis of the amyloidogenic precursor will slow fibril formation, has extended length of life and, in some instances, resulted in improved organ function over time; nonetheless, the prognosis remains poor because of persistent amyloid burden.To address this issue, we have focused on passive immunotherapy as a means to expedite removal of amyloid deposits and, through these research efforts, developed a murine (m) IgG1 anti-human light chain monoclonal antibody (mAb), designated 11-1F4, which recognized a conformational epitope present on amyloid fibrils, but not the soluble amyloidogenic precursor protein. 10,11 Furthermore, when administered to mice bearing subcutaneous human AL amyloidomas, the antibody bound to the pathologic material and initiated an inflammatory response that led to elimination of the induced tumors. 12 Notably, we also demonstrated that m11-1F4, after radiolabeling with the positron-emitting isotope I-124, imaged the xenograft, as evidenced by micropositron emission tomography/computed tomography (PET/CT). 13 These results have led to a Food and Drug Ad...

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“…To prove this point, we decided to perform alanine-scanning mutagenesis. It is commonly used to identify specific amino acid residues responsible for peptide function, stability, and conformation (36). Synthetic peptides were made whereby each residue of G2 was sequentially replaced with an Ala residue, and corresponding changes in G2 peptide were evaluated for the ability to affect viral entry (Fig.…”

Section: Identification Of Hs and 3-os Hs-binding Peptides Thatmentioning

confidence: 99%

Anti-heparan Sulfate Peptides That Block Herpes Simplex Virus Infection in Vivo

Tiwari

Liu

Vályi-Nagy

et al. 2011

Journal of Biological Chemistry

100

167

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Heparan sulfate (HS) and its highly modified form, 3-O-sulfated heparan sulfate (3-OS HS), contribute strongly to herpes simplex virus type-1 (HSV-1) infection in vitro. Here we report results from a random M13-phage display library screening to isolate 12-mer peptides that bind specifically to HS, 3-OS HS, and block HSV-1 entry. The screening identified representative candidates from two-different groups of anti-HS peptides with high positive charge densities. Group 1, represented by G1 peptide (LRSRTKIIRIRH), belongs to a class with alternating charges (XRXRXKXXRXRX), and group 2, represented by G2 peptide (MPRRRRIRRRQK), shows repetitive charges (XXR-RRRXRRRXK). Viral entry and glycoprotein D binding assays together with fluorescent microscopy data indicated that both G1 and G2 were potent in blocking HSV-1 entry into primary cultures of human corneal fibroblasts and CHO-K1 cells transiently expressing different glycoprotein D receptors. Interestingly, G2 peptide isolated against 3-OS HS displayed wider ability to inhibit entry of clinically relevant strains of HSV-1 and some divergent members of herpesvirus family including cytomegalovirus and human herpesvirus-8. To identify functional residues within G1 and G2, we performed point mutations and alanine-scanning mutagenesis. Several arginine and a lysine residues were needed for anti-HSV-1 activity, suggesting the importance of the positively charged residues in virus-cell binding and virus-induced membrane fusion. In vivo administration of G1 or G2 peptide as a prophylactic eye drop completely blocked HSV-1 spread in the mouse cornea as evident by immunohistochemistry. This result also highlights an in vivo significance of HS and 3-OS HS during ocular herpes infection.

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Phage Display and Peptide Mapping of an Immunoglobulin Light Chain Fibril-Related Conformational Epitope

Cited by 18 publications

References 52 publications

Generation and Characterization of Anti-AA Amyloid-Specific Monoclonal Antibodies

Generation and Characterization of Anti-AA Amyloid-Specific Monoclonal Antibodies

Radioimmunodetection of amyloid deposits in patients with AL amyloidosis

Anti-heparan Sulfate Peptides That Block Herpes Simplex Virus Infection in Vivo

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