Bernard Arulanandam, Ph.D.

Biology Professor

UTSA

Currently seeking M.S. & Ph.D. students

Dr. Bernard Arulanandam's lab  studies the basic mechanisms of immune defenses at mucosal sites. Mucosal surfaces form the major interface between the host and the environment, and constitute the first line of defense against pathogens. Specific ongoing projects include:

Immunopathogenesis of Chlamydia trachomatis: We are currently investigating various aspects of Chlamydia-induced pathogenesis utilizing genital and lung bacterial challenge models. The pathology produced by both genital (e.g., PID) and pulmonary infection of newborns (asthma-like consequences such as airway hyper-reactivity) result as a consequence of immunological sequelae to the primary or repeated infections with this pathogen. Research interest also includes regulatory mechanism(s) of host factors including microRNAs in responding to Chlamydia infection and vaccination. These studies are aimed at providing insights into the design of a subunit vaccine formulated with protective antigens and immune regulators to prevent chlamydial infection.

Immune Defenses Against Acinetobacter baumannii: Acinetobacter baumannii has emerged as an important nosocomial pathogen observed in injured military service personnel from the Middle East and patients under intensive care. We are focused on the characterization of A. baumannii virulence factors using gastrointestinal and pulmonary infection models to delineate the role of these virulence factors in bacterial colonization at mucosal sites and pathogenesis. The long term goal is to develop prophylactic and therapeutic treatments against MDR Acinetobacter infection by targeting bacterial virulence factors.

Related diseases: Chlamydia, Acinetobacter infection

Techniques: Immunology, Rodent models, Small animal whole body imaging, Proteomics, Molecular biology

Research & Grants

Dr. Bernard Arulanandam's lab studies the basic mechanisms of immune defenses at mucosal sites. Mucosal surfaces form the major interface between the host and the environment, and constitute the first line of defense against pathogens. Specific ongoing projects include:

Immunopathogenesis of Chlamydia Trachomatis

We are currently investigating various aspects of Chlamydia-induced pathogenesis utilizing genital and lung bacterial challenge models. The pathology produced by both genital (e.g., PID) and pulmonary infection of newborns (asthma-like consequences such as airway hyper-reactivity) result as a consequence of immunological sequelae to the primary or repeated infections with this pathogen. Research interest also includes regulatory mechanism(s) of host factors including microRNAs in responding to Chlamydia infection and vaccination. These studies are aimed at providing insights into the design of a subunit vaccine formulated with protective antigens and immune regulators to prevent chlamydial infection.

Immune Defenses Against Acinetobacter baumannii

Acinetobacter baumannii has emerged as an important nosocomial pathogen observed in injured military service personnel from the Middle East and patients under intensive care. We are focused on the characterization of A. baumannii virulence factors using gastrointestinal and pulmonary infection models to delineate the role of these virulence factors in bacterial colonization at mucosal sites and pathogenesis. The long term goal is to develop prophylactic and therapeutic treatments against MDR Acinetobacter infection by targeting bacterial virulence factors.

Diseases relevant to my field of study:

Chlamydia and Acinetobacter infection

Techniques applied in my research:

Immunology, rodent models, small animal whole body imaging, proteomics and molecular biology
Publications

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Bernard Arulanandam, Ph.D.

Research & Grants

Immunopathogenesis of Chlamydia Trachomatis

Immune Defenses Against Acinetobacter baumannii

Diseases relevant to my field of study:

Techniques applied in my research:

Publications