Your search keyword '"Rosie M. Mundy"' showing total 7 results

1. Development of a low-seroprevalence, αvβ6 integrin-selective virotherapy based on human adenovirus type 10

Author

Emily A. Bates, James A. Davies, Jana Váňová, Davor Nestić, Valerie S. Meniel, Sarah Koushyar, Tabitha G. Cunliffe, Rosie M. Mundy, Elise Moses, Hanni K. Uusi-Kerttula, Alexander T. Baker, David K. Cole, Dragomira Majhen, Pierre J. Rizkallah, Toby Phesse, John D. Chester, and Alan L. Parker

Subjects

oncolytic, virotherapy, adenovirus, targeting, αvβ6 integrin, low seroprevalence, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Oncolytic virotherapies (OV) hold immense clinical potential. OV based on human adenoviruses (HAdV) derived from HAdV with naturally low rates of pre-existing immunity will be beneficial for future clinical translation. We generated a low-seroprevalence HAdV-D10 serotype vector incorporating an αvβ6 integrin-selective peptide, A20, to target αvβ6-positive tumor cell types. HAdV-D10 has limited natural tropism. Structural and biological studies of HAdV-D10 knob protein highlighted low-affinity engagement with native adenoviral receptors CAR and sialic acid. HAdV-D10 fails to engage blood coagulation factor X, potentially eliminating “off-target” hepatic sequestration in vivo. We engineered an A20 peptide that selectively binds αvβ6 integrin into the DG loop of HAdV-D10 fiber knob. Assays in αvβ6+ cancer cell lines demonstrated significantly increased transduction mediated by αvβ6-targeted variants compared with controls, confirmed microscopically. HAdV-D10.A20 resisted neutralization by neutralizing HAdV-C5 sera. Systemic delivery of HAdV-D10.A20 resulted in significantly increased GFP expression in BT20 tumors. Replication-competent HAdV-D10.A20 demonstrated αvβ6 integrin-selective cell killing in vitro and in vivo. HAdV-D10 possesses characteristics of a promising virotherapy, combining low seroprevalence, weak receptor interactions, and reduced off-target uptake. Incorporation of an αvβ6 integrin-selective peptide resulted in HAdV-D10.A20, with significant potential for clinical translation.

Published

2022

2. Broad sialic acid usage amongst species D human adenovirus

Author

Rosie M. Mundy, Alexander T. Baker, Emily A. Bates, Tabitha G. Cunliffe, Alicia Teijeira-Crespo, Elise Moses, Pierre J. Rizkallah, and Alan L. Parker

Abstract

Human adenoviruses (HAdV) are widespread pathogens causing infections of the respiratory and gastrointestinal tracts, genitourinary system and the eye. Species D (HAdV-D) are the most diverse species and cause both gastrointestinal tract infections and epidemic keratoconjunctivitis (EKC). Despite being significant pathogens, HAdV-D are understudied and knowledge around basic mechanisms of cell infection is lacking. Sialic acid (SA) usage has been proposed as a major mechanism of cell infection for EKC causing HAdV-D. Here, we provide apo state crystal structures for fiber knob proteins of 7 previously undetermined HAdV-D, and provide crystal structures of HAdV-D25, HAdV-D29 and HAdV-D53 knob proteins bound to SA. Biologically, we demonstrate that removal of cell surface SA reduced infectivity of HAdV-C5 vectors pseudotyped with HAdV-D fiber knob proteins, whilst engagement of the classical HAdV receptor, CAR was variable. Together, these data indicate an important role for SA engagement in the tropism of many HAdV-D and may facilitate the development of suitable antivirals to control EKC outbreaks.

Published

2023

3. Development of a low-seroprevalence, αvβ6 integrin-selective virotherapy based on human adenovirus type 10

Author

Emily A. Bates, James A. Davies, Jana Váňová, Davor Nestić, Valerie S. Meniel, Sarah Koushyar, Tabitha G. Cunliffe, Rosie M. Mundy, Elise Moses, Hanni K. Uusi-Kerttula, Alexander T. Baker, David K. Cole, Dragomira Majhen, Pierre J. Rizkallah, Toby Phesse, John D. Chester, and Alan L. Parker

Subjects

Cancer Research, Oncology, parasitic diseases, virus diseases, Molecular Medicine, oncolytic, virotherapy, adenovirus targeting, αvβ6 integrin, low seroprevalence, structure, Pharmacology (medical), Biology, eye diseases

Abstract

Oncolytic virotherapies (OV) hold immense clinical potential. OV based on human adenoviruses (HAdV) derived from HAdV with naturally low rates of pre- existing immunity will be beneficial for future clinical translation. We generated a low- seroprevalence HAdV-D10 serotype vector incorporating an αvβ6 integrin-selective peptide, A20, to target αvβ6-positive tumor cell types. HAdV-D10 has limited natural tropism. Structural and biological studies of HAdV-D10 knob protein highlighted low-affinity engagement with native adenoviral receptors CAR and sialic acid. HAdV-D10 fails to engage blood coagulation factor X, potentially eliminating “off-target” hepatic sequestration in vivo. We engineered an A20 peptide that selectively binds αvβ6 integrin into the DG loop of HAdV-D10 fiber knob. Assays in αvβ6+ cancer cell lines demonstrated significantly increased transduction mediated by αvβ6-targeted variants compared with controls, confirmed microscopically. HAdV-D10.A20 resisted neutralization by neutralizing HAdV-C5 sera. Systemic delivery of HAdV-D10.A20 resulted in significantly increased GFP expression in BT20 tumors. Replication-competent HAdV-D10.A20 demonstrated αvβ6 integrin-selective cell killing in vitro and in vivo. HAdV-D10 possesses characteristics of a promising virotherapy, combining low seroprevalence, weak receptor interactions, and reduced off-target uptake. Incorporation of an αvβ6 integrin-selective peptide resulted in HAdV-D10.A20, with significant potential for clinical translation.

Published

2021

4. The Fiber Knob Protein of Human Adenovirus Type 49 Mediates Highly Efficient and Promiscuous Infection of Cancer Cell Lines Using a Novel Cell Entry Mechanism

Author

Carly M. Bliss, Pierre J. Rizkallah, James A. Davies, Emily A. Bates, Alan L. Parker, Elise Moses, Gareth Marlow, Rosie M. Mundy, David K. Cole, and Alexander T. Baker

Subjects

Genetic Vectors, Immunology, Population, Coxsackievirus, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Neoplasms, Virology, Humans, anticancer therapy, Vector (molecular biology), Receptor, education, Tropism, 030304 developmental biology, Oncolytic Virotherapy, 0303 health sciences, education.field_of_study, biology, CD46, Adenoviruses, Human, virus diseases, biochemical phenomena, metabolism, and nutrition, Virus Internalization, surface receptor, biology.organism_classification, eye diseases, Virus-Cell Interactions, 3. Good health, Oncolytic virus, Cell biology, adenoviruses, oncolytic viruses, 030220 oncology & carcinogenesis, Insect Science, Receptors, Virus, Capsid Proteins, Cellular Tropism

Abstract

Adenoviruses are powerful tools experimentally and clinically. To maximize efficacy, the development of serotypes with low preexisting levels of immunity in the population is desirable., The human adenovirus (HAdV) phylogenetic tree is diverse, divided across seven species and comprising over 100 individual types. Species D HAdV are rarely isolated with low rates of preexisting immunity, making them appealing for therapeutic applications. Several species D vectors have been developed as vaccines against infectious diseases, where they induce robust immunity in preclinical models and early phase clinical trials. However, many aspects of the basic virology of species D HAdV, including their basic receptor usage and means of cell entry, remain understudied. Here, we investigated HAdV-D49, which previously has been studied for vaccine and vascular gene transfer applications. We generated a pseudotyped HAdV-C5 presenting the HAdV-D49 fiber knob protein (HAdV-C5/D49K). This pseudotyped vector was efficient at infecting cells devoid of all known HAdV receptors, indicating HAdV-D49 uses an unidentified cellular receptor. Conversely, a pseudotyped vector presenting the fiber knob protein of the closely related HAdV-D30 (HAdV-C5/D30K), differing in four amino acids from HAdV-D49, failed to demonstrate the same tropism. These four amino acid changes resulted in a change in isoelectric point of the knob protein, with HAdV-D49K possessing a basic apical region compared to a more acidic region in HAdV-D30K. Structurally and biologically we demonstrate that HAdV-D49 knob protein is unable to engage CD46, while potential interaction with coxsackievirus and adenovirus receptor (CAR) is extremely limited by extension of the DG loop. HAdV-C5/49K efficiently transduced cancer cell lines of pancreatic, breast, lung, esophageal, and ovarian origin, indicating it may have potential for oncolytic virotherapy applications, especially for difficult to transduce tumor types. IMPORTANCE Adenoviruses are powerful tools experimentally and clinically. To maximize efficacy, the development of serotypes with low preexisting levels of immunity in the population is desirable. Consequently, attention has focused on those derived from species D, which have proven robust vaccine platforms. This widespread usage is despite limited knowledge in their basic biology and cellular tropism. We investigated the tropism of HAdV-D49, demonstrating that it uses a novel cell entry mechanism that bypasses all known HAdV receptors. We demonstrate, biologically, that a pseudotyped HAdV-C5/D49K vector efficiently transduces a wide range of cell lines, including those presenting no known adenovirus receptor. Structural investigation suggests that this broad tropism is the result of a highly basic electrostatic surface potential, since a homologous pseudotyped vector with a more acidic surface potential, HAdV-C5/D30K, does not display a similar pantropism. Therefore, HAdV-C5/D49K may form a powerful vector for therapeutic applications capable of infecting difficult to transduce cells.

Published

2021

5. The fiber knob protein of human adenovirus type 49 mediates highly efficient and promiscuous infection of cancer cell lines using a novel cell entry mechanism

Author

Pierre J. Rizkallah, David K. Cole, Rosie M. Mundy, Alan L. Parker, Elise Moses, James A. Davies, Alexander T. Baker, and Gareth Marlow

Subjects

chemistry.chemical_classification, Phylogenetic tree, CD46, virus diseases, Biology, Virology, eye diseases, Amino acid, Oncolytic virus, chemistry, Immunity, Vector (molecular biology), Receptor, Tropism

Abstract

The human adenovirus (HAdV) phylogenetic tree is diverse, divided across seven species and comprising over 100 individual types. Species D HAdV are rarely isolated with low rates of pre-existing immunity, making them appealing for therapeutic applications. Several species D vectors have been developed as vaccines against infectious diseases where they induce robust immunity in pre-clinical models and early phase clinical trials. However, many aspects of the basic virology of species D HAdV, including their basic receptor usage and means of cell entry, remain understudied.Here, we investigated HAdV-D49, which previously has been studied for vaccine and vascular gene transfer applications. We generated a pseudotyped HAdV-C5 presenting the HAdV-D49 fiber knob protein (HAdV-C5/D49K). This pseudotyped vector was efficient at infecting cells devoid of all known HAdV receptors, indicating HAdV-D49 uses an unidentified cellular receptor. Conversely, a pseudotyped vector presenting the fiber knob protein of the closely related HAdV-D30 (HAdV-C5/D30K), differing in four amino acids to HAdV-D49, failed to demonstrate the same tropism. These four amino acid changes resulted in a change in isoelectric point of the knob protein, with HAdV-D49K possessing a basic apical region compared to a more acidic region in HAdV-D30K. Structurally and biologically we demonstrate that HAdV-D49 knob protein is unable to engage CD46, whilst potential interaction with CAR is extremely limited by extension of the DG loop. HAdV-C5/49K efficiently transduced cancer cell lines of pancreatic, breast, lung, oesophageal and ovarian origin, indicating it may have potential for oncolytic virotherapy applications, especially for difficult to transduce tumour types.ImportanceAdenoviruses are powerful tools experimentally and clinically. To maximise efficacy, the development of serotypes with low pre-existing levels of immunity in the population is desirable. Consequently, attention has focussed on those derived from species D, which have proven robust vaccine platforms. This widespread usage is despite limited knowledge in their basic biology and cellular tropism.We investigated the tropism of HAdV-D49, demonstrating it uses a novel cell entry mechanism that bypasses all known HAdV receptors. We demonstrate, biologically, that a pseudotyped HAdV-C5/D49K vector efficiently transduces a wide range of cell lines, including those presenting no known adenovirus receptor. Structural investigation suggests that this broad tropism is the result of a highly basic electrostatic surface potential, since a homologous pseudotyped vector with a more acidic surface potential, HAdV-C5/D30K, does not display a similar pan-tropism. Therefore, HAdV-C5/D49K may form a powerful vector for therapeutic applications capable of infecting difficult to transduce cells.

Published

2020

6. Human adenovirus type 26 uses sialic acid - bearing glycans as a primary cell entry receptor

Author

James A. Davies, Pierre J. Rizkallah, Rosie M. Mundy, Alan L. Parker, and Alexander T. Baker

Subjects

Glycan, viruses, Cell, Keratoconjunctivitis, Biology, Crystallography, X-Ray, Virus, 03 medical and health sciences, chemistry.chemical_compound, Viral Proteins, 0302 clinical medicine, Adenovirus Vaccines, Virology, medicine, Humans, Vector (molecular biology), Receptor, Research Articles, 030304 developmental biology, 0303 health sciences, Multidisciplinary, CD46, Adenoviruses, Human, HEK 293 cells, SciAdv r-articles, virus diseases, N-Acetylneuraminic Acid, eye diseases, Sialic acid, medicine.anatomical_structure, HEK293 Cells, chemistry, 030220 oncology & carcinogenesis, biology.protein, Receptors, Virus, Research Article

Abstract

Human adenovirus type 26 uses sialic acid as a primary cellular receptor—structural insights for this phase 3 vaccine vector., Adenoviruses are clinically important agents. They cause respiratory distress, gastroenteritis, and epidemic keratoconjunctivitis. As non-enveloped, double-stranded DNA viruses, they are easily manipulated, making them popular vectors for therapeutic applications, including vaccines. Species D adenovirus type 26 (HAdV-D26) is both a cause of EKC and other diseases and a promising vaccine vector. HAdV-D26–derived vaccines are under investigation as protective platforms against HIV, Zika, and respiratory syncytial virus infections and are in phase 3 clinical trials for Ebola. We recently demonstrated that HAdV-D26 does not use CD46 or Desmoglein-2 as entry receptors, while the putative interaction with coxsackie and adenovirus receptor is low affinity and unlikely to represent the primary cell receptor. Here, we establish sialic acid as a primary entry receptor used by HAdV-D26. We demonstrate that removal of cell surface sialic acid inhibits HAdV-D26 infection, and provide a high-resolution crystal structure of HAdV-D26 fiber-knob in complex with sialic acid.

Published

2019

7. Adenovirus serotype 26 utilises sialic acid bearing glycans as a primary cell entry receptor

Author

Rosie M. Mundy, Pierre J. Rizkallah, Alexander T. Baker, James A. Davies, and Alan L. Parker

Subjects

Glycan, biology, CD46, viruses, Cell, virus diseases, Virology, eye diseases, Sialic acid, Epidemic Keratoconjunctivitis, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, biology.protein, medicine, Vector (molecular biology), Receptor, DNA

Abstract

Adenoviruses are clinically important agents. They cause respiratory distress, gastroenteritis, and epidemic keratoconjunctivitis (EKC). As non-enveloped, double stranded DNA viruses, they are easily manipulated, making them popular vectors for therapeutic applications, including vaccines. Species D adenovirus serotype 26 (HAdV-D26) is both a cause of EKC and other disease, and a promising vaccine vector. HAdV-D26 derived vaccines are under investigation as protective platforms against HIV, Zika, RSV infections and are in Phase-III clinical trials for Ebola.We recently demonstrated that HAdV-D26 does not utilise CD46 or desmoglein 2 as entry receptors, whilst the putative interaction with Coxsackie and Adenovirus Receptor (CAR) is low affinity and unlikely to represent the primary cell receptor.Here, we definitively establish sialic acid as the primary entry receptor utilised by HAdV-D26. We demonstrate removal of cell surface sialic acid inhibits HAdV-D26 infection and provide a high-resolution crystal structure of HAdV-D26 fiber-knob in complex with sialic acid.

Published

2019