Esther Borges Florsheim

Assistant Professor
Biodesign IVV
Graduate External Committee
Arizona State University

Location: TEMPE

Contact Information
(480) 727-3391


2014    Ph.D.    Immunology                                      University of Sao Paulo

2009    B.Sc.    Fundamental Sciences for Health     University of Sao Paulo

Research Interests

Immunology is a rapidly growing area in the biomedical sciences and at the forefront of current research priorities. While progress in immunology has mostly emphasized defense strategies against pathogens, most of our knowledge on how immunological processes affect normal physiology remains poorly understood. The Florsheim Labs goal is to fill this gap and expand our understanding of the immune system as integral to the whole organism, uniting concepts from physiology, neuroscience, and animal behavior.

_______________________________________ OUR PROJECTS ________________________________________


               We use a multi-disciplinary approach to redefine

            the role of the immune system in health and disease.



I. Integrating mast cell biology and gastrointestinal physiology

The gastrointestinal (GI) tract, where most of the immune cells in the body live, is the largest site of interaction with the environment. Resident cells such as macrophages, dendritic cells, and innate lymphoid cells are fundamental to maintain the integrity and support this tissue demands. Mast cells are also endemic to the entire GI tract, but apart from their role in anaphylaxis, their contribution to gut physiology is unknown. Our group aims to determine how mast cells regulate GI physiology at a steady-state and during inflammation (food allergy, for example). GI physiology includes digestion, motility, secretory and endocrine functions. This research project provides new insights into the biology of mast cells as well as new therapeutic avenues to ameliorate inflammatory diseases of the GI tract.


II. Neuro-immune connections

The immune and nervous systems are the bodys main sensory interfaces that perceive and adapt to the environment. Despite the relevance of these two systems, immunology and neuroscience have been historically separate fields of study. Our group hypothesizes that certain immune cells (e.g. mast cells) form stable interactions with neurons to influence organismal physiology. Disruption or dysregulation of this module might be at the origin of inflammatory conditions. By leveraging technologies from these two biomedical fields, we seek to identify the cellular and molecular mechanisms of neuro-immune interactions at mucosal surfaces.


III. Brain circuits and behavioral outcomes

The best way to deal with allergies is to avoid exposure to allergens. This avoidance behavior is characteristic in allergy sufferers and essential for animals to prevent exposure to noxious substances in natural environments. Despite its significance, the mechanisms by which inflammation causes behavioral changes are mostly unknown. The Florsheim lab designs experiments to a) identify the brain circuits induced by immune defenses and b) characterize the behavioral responses to distinct immunological stimuli. Our approach has the potential to uncover unknown immunological mechanisms underlying neuropsychiatric conditions, such as anxiety, depression, and post-traumatic stress disorder.


__________________________________________ LAB MISSION __________________________________________


The Florsheim Lab welcomes scientists from underrepresented backgrounds. As a team,

we are committed to providing a diverse, inclusive, and supportive environment. We work

    together to help the next generation of scientists by focusing on career development,

               scientific integrity, and the pursuit of fundamental biological questions.



Esther Borges Florsheim is an immunologist with core interests in how immunological defenses promote fitness and organismal survival. She studies allergies, mast cell biology, and neuro-immune interactions at the gastrointestinal tract to determine the impact of the immune system in physiology.

Dr. Florsheim earned one degree in Fundamental Sciences for Health (B.Sc., University of S�o Paulo) and one in Immunology (Ph.D., University of S�o Paulo). Her interests in ideas from across immunology and inflammation have led her on a dedicated research trajectory, performing undergraduate research on innate inflammatory responses to bacterial lipopolysaccharides and focusing her graduate research on the innate immune pathways required for the development of allergies. She completed her postdoctoral training at Yale University School of Medicine where she explored the neuro-immune and behavioral responses upon allergen sensing in the gut mucosa.

As a Principal Investigator, Dr. Florsheim aims to: a) transform the immunology field through a multidisciplinary approach, b) motivate the next generation of scientists interested in discovering the yet unsolved immunological mysteries, c) create an equal world in STEM.