Maria T Arévalo

Publications (5)13.08 Total impact

• Article: Engineering influenza viral vectors.

  Junwei Li, Maria T Arévalo, Mingtao Zeng
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  ABSTRACT: Influenza virus is a respiratory pathogen with a negative-sense, segmented RNA genome. Construction of recombinant influenza viruses in the laboratory was reported starting in the 1980s. Within a short period of time, pioneer researchers had devised methods that made it possible to construct influenza viral vectors from cDNA plasmid systems. Herein, we discuss the evolution of influenza virus reverse genetics, from helper virus-dependent systems, to helper virus-independent 17-plasmid systems, and all the way to 3- and 1- plasmid systems. Successes in the modification of different gene segments for various applications, including vaccine and gene therapies are highlighted.
  Bioengineered. 08/2012; 4(1).
• Article: Protective immunity against tularemia provided by an adenovirus-vectored vaccine expressing Tul4 of Francisella tularensis.

  Ravinder Kaur, Shan Chen, Maria T Arévalo, Qingfu Xu, Yanping Chen, Mingtao Zeng
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  ABSTRACT: Francisella tularensis, a category A bioterrorism agent, is a highly infectious organism that is passed on via skin contact and inhalation routes. A live attenuated vaccine strain (LVS) has been developed, but it has not been licensed for public use by the FDA due to safety concerns. Thus, there exists a need for a safer and improved vaccine. In this study, we have constructed a replication-incompetent adenovirus, Ad/opt-Tul4, carrying a codon-optimized gene for expression of a membrane protein, Tul4, of F. tularensis LVS. Its ability to protect against lethal challenge and its immunogenicity were evaluated in a murine model. An intramuscular injection of a single dose (1 × 10(7) PFU) of Ad/opt-Tul4 elicited a robust Tul4-specific antibody response. Assays suggest a Th1-driven response. A single dose elicited 20% protection against challenge with 100 × 50% lethal dose (LD(50)) F. tularensis LVS; two additional booster shots resulted in 60% protection. In comparison, three doses of 5 μg recombinant Tul4 protein did not elicit significant protection against challenge. Therefore, the Ad/opt-Tul4 vaccine was more effective than the protein vaccine, and protection was dose dependent. Compared to LVS, the protection rate is lower, but an adenovirus-vectored vaccine may be more attractive due to its enhanced safety profile and mucosal route of delivery. Furthermore, simple genetic modification of the vaccine may potentially produce antibodies protective against a fully virulent strain of F. tularensis. Our data support the development and further research of an adenovirus-vectored vaccine against Tul4 of F. tularensis LVS.
  Clinical and vaccine immunology: CVI 03/2012; 19(3):359-64. · 2.37 Impact Factor
• Article: Mucosal vaccination with a multicomponent adenovirus-vectored vaccine protects against Streptococcus pneumoniae infection in the lung.

  Maria T Arévalo, Qingfu Xu, James C Paton, Susan K Hollingshead, Michael E Pichichero, David E Briles, Natasha Girgis, Mingtao Zeng
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  ABSTRACT: Streptococcus pneumoniae is a major bacterial respiratory pathogen. Current licensed pneumococcal polysaccharide and polysaccharide-protein conjugate vaccines are administered by an intramuscular injection. In order to develop a new-generation vaccine that can be administered in a needle-free mucosal manner, we have constructed early 1 and 3 gene regions (E1/E3) deleted, replication-defective adenoviral vectors encoding pneumococcal surface antigen A (PsaA), the N-fragment of pneumococcal surface protein A (N-PspA), and the detoxified mutant pneumolysin (PdB) from S. pneumoniae strain D39. Intranasal vaccination with the three adenoviral vectors (Ad/PsaA, Ad/N-PspA, and Ad/PdB) in mice resulted in robust antigen-specific serum immunoglobulin G responses, as demonstrated by an enzyme-linked immunosorbent assay. In addition, nasal mucosal vaccination with the combination of the three adenoviral vectors conferred protection against S. pneumoniae strain D39 colonization in mouse lungs. Taken together, these data demonstrate the feasibility of developing a mucosal vaccine against S. pneumoniae using recombinant adenoviruses for antigen delivery.
  FEMS Immunology & Medical Microbiology 05/2009; 55(3):346-51. · 2.44 Impact Factor
• Article: The VE-cadherin binding domain of fibrinogen induces endothelial barrier permeability and enhances transendothelial migration of malignant breast epithelial cells.

  Abha Sahni, Maria T Arévalo, Sanjeev K Sahni, Patricia J Simpson-Haidaris
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  ABSTRACT: Fibrin deposition and exudation of plasma fibrinogen (Fg) have long been recognized as hallmarks of inflammation, cardiovascular disease and neoplasia. The Fg-beta(15-42) domain binds to the endothelial cell adhesion molecule, VE-cadherin, promoting endothelial cell proliferation, angiogenesis and leukocyte diapedesis. Furthermore, spontaneous blood-borne and lymphatic metastasis of some types of tumor emboli requires plasma fibrin(ogen); however, the molecular mechanisms by which this occurs are poorly understood. We sought to determine whether Fg-beta(15-42) and VE-cadherin binding interactions promote endothelial barrier permeability and breast cancer cell transendothelial migration (TEM) using transwell insert culture systems. Synthetic peptides containing/missing residues beta(15-17) critical for Fg-beta(15-42) binding to VE-cadherin, and antibodies that bind to Fg-beta(15-21) (T2G1) and VE-cadherin (BV9) were used to induce or inhibit Fg-mediated permeability and TEM. Fg induced dose-dependent permeability of human umbilical vein and microvascular endothelial but not epithelial cell barriers. Maximal Fg-induced endothelial permeability required Fg-beta(15-42) and VE-cadherin-binding interactions involving Fg-beta(15-17). Fg-induced TEM of malignant MDA-MB-231 and MCF-7 breast cancer cells also required Fg-beta(15-42) and VE-cadherin binding; however, such TEM was independent of E-cadherin or estrogen receptor expression. In contrast, Fg did not induce TEM of nonmalignant MCF-10A breast epithelial cells. Fg-induced endothelial permeability was retained in the presence of MDA-MB-231 but inhibited in the presence of MCF-10A cells. It is intriguing to speculate that loss of Fg-beta(15-42) binding by premalignant breast epithelial cells serves as a molecular switch to induce a highly aggressive, metastatic breast cancer phenotype. Hence, Fg-beta(15-42) represents a potential molecular target for therapeutic intervention of breast cancer metastasis.
  International Journal of Cancer 03/2009; 125(3):577-84. · 5.44 Impact Factor
• Article: Primary human endothelial cells support direct but not antibody-dependent enhancement of dengue viral infection.

  Maria T Arévalo, Patricia J Simpson-Haidaris, Zhihua Kou, Jacob J Schlesinger, Xia Jin
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  ABSTRACT: Microvascular plasma leakage is the hallmark of dengue hemorrhagic fever and dengue shock syndrome. The precise molecular mechanisms leading to microvascular leakage are yet to be determined, but dengue virus (DENV) infection and consequent endothelial cell death has been suggested as its major cause. However, the extent of endothelial cell permissiveness to DENV infection and the magnitude of cell death following DENV infection are controversial. To clarify this issue, we analyzed the kinetics and consequences of DENV infection of human umbilical vein endothelial cells (HUVEC) using a novel molecularly cloned DENV2-16681 virus. Viral replication was detected as early as 24 hr post-infection by RT-PCR and plaque assays. However, merely 2% of HUVEC were DENV antigen-positive even after 96 hr of infection as measured by the FACS indirect immunofluorescence assays. Unlike monocytes/macrophages, HUVEC did not support antibody dependent enhancement of dengue viral infection due to a lack of FcgammaRI and FcgammaRII. Furthermore, DENV infection did not increase HUVEC apoptosis as compared to mock-infected cells. Because in vitro only a small percentage of endothelial cells were productively infected in vitro with no significant apoptosis occurring in either infected or bystander cells, it would be important to re-examine whether direct dengue viral infection of endothelium is the major cause of the extensive vascular leakage observed in patients with dengue hemorrhagic fever and dengue shock syndrome.
  Journal of Medical Virology 02/2009; 81(3):519-28. · 2.82 Impact Factor