Betsy Herold
<p><strong>Betsy Herold, M.D.</strong> directs a basic and translational research program, which focuses on virus host interactions. Projects in the lab include studies designed to identify the cellular signaling pathways that herpes simplex viruses (HSV) usurp to promote viral entry and infection. The lab uncovered a previously unappreciated paradigm associated with activation of phospholipid scramblases, which are known to catalyze the movement of phosphatidylserine lipids between the inner and outer leaflet of the plasma membrane. Surprisingly, they found that the exofacial movement of phospholipids is associated with concomitant translocation of intracellular proteins, including the master kinase Akt to the outside, where Akt becomes phosphorylated to activate an “outside-inside” signaling cascade that promotes viral entry. This pathway is also usurped by SARS-CoV-2 and is important for cellular processes including apoptosis. In collaboration with the Almo lab, they have engineered cell impermeable kinase inhibitors. These compounds block viral entry and prevent induction of apoptosis by select TNF ligands.</p>
<p> Serendipitously, in studying this signaling pathway, the lab identified a novel candidate vaccine for the prevention and treatment of HSV infections. Most efforts to develop a vaccine have focused on neutralizing antibodies that target HSV glycoprotein D (gD), but all of these have failed in clinical trials. Instead, the lab (in collaboration with the Jacobs lab), engineered a virus completely deleted in gD. Glycoprotein D is required for viral entry and cell-to-cell spread, thus the deletion virus (DgD-2) is restricted a single cycle and will not spread. This candidate vaccine elicits T cell responses and high titer, polyfunctional antibodies that protect through antibody-dependent cell mediated cytotoxicity (ADCC). The vaccine prevents the establishment of latency in mice and is significantly more protective in multiple small animal models than prior vaccines that have failed in clinical trials. The lab has subsequently isolated monoclonal antibodies (mAbs) that have this protective ADCC activity and both the vaccine and the mAbs are being advanced for preclinical development. Studies to understand why this vaccine elicits ADCC-mediating antibodies whereas gD vaccines and primary HSV infection only elicit neutralizing antibodies led to the identification of a key role for TNFRSF14 (aka HVEM) in generating and mediating ADCC responses. HVEM is an immune cell surface protein that functions in signal transduction pathways that regulate inflammatory or inhibitory immune responses but its role in shaping the B cell repertoire and in providing a second signal for ADCC had not been previously described and has implications for vaccine development and oncolytic therapies. </p>
<p> The third major area of basic research involves defining the molecular mechanisms underlying the HIV-HSV syndemic. Epidemiological studies have consistently demonstrated that being HSV seropositive is associated with an increased risk for HIV acquisition, replication, higher plasma viral loads and more frequent episodes of HIV reactivation. Using primary cells from patients and HIV latently infected cell lines, the lab has identified several mechanisms by which HSV promotes HIV latency reversal and replication including upregulation of the noncoding RNA, <em>Malat1</em>, and downregulation of IL-32. Defining these pathways may lead to identification of new strategies to “shock and kill” or “block and lock” HIV.</p>
<p> Clinical studies include prevention of infectious disease complications in transplantation. Members of the research group are involved in studies to optimize pre-emptive prophylaxis for CMV and EBV, vaccine responses in transplantation recipients, and others</p>
<div>Dr. Herold directs a translational research program focused on the interactions between viruses and their host and using that knowledge to develop novel treatment and prevention strategies. Through her basic science studies, Dr. Herold has developed a unique candidate vaccine to prevent herpes simplex virus (HSV) infections, which is being advanced for phase I clinical trials. Studies of this vaccine uncovered a previously unappreciated immune evasion strategy; this knowledge may accelerate the development of drugs to bolster vaccine and monoclonal antibody efficacy against a range of pathogens. </div>
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<div>Her studies on HIV focus on the development of safe and effective pre-exposure prophylactic strategies and on investigating how HSV interacts with HIV to reactivate HIV. Dr. Herold's team also has discovered a previously unrecognized phenomenon in cell biology in which HSV and other viruses activate a mechanism that helps them gain entry and infect healthy cells. This provides a novel target for the development of new antiviral drugs. <br /><br /></div>
<div>Most recently, her lab has studied why children respond differently and are relatively protected from severe COVID-19. Defining the differences in the immune response in children compared to adults will provide insights into protective immunity against this virus and future pandemic viruses. <br /><br /></div>
<div>Her clinical research focuses on infections in pediatric transplant recipients. Dr. Herold helped established and is co-chair of the Pediatric Infectious Diseases Society Transplant Research Network (PIDTRAN), which supports and promotes projects to prevent and treat infectious diseases among child transplant recipients. Dr. Herold has served on the Office of AIDS Research Advisory Council and on the Pediatric Infectious Diseases Society Council. She has been continuously funded by the NIH since 1989. Dr. Herold has over 180 publications in peer-reviewed journals and has presented her work internationally.</div>
Pediatric Infectious Diseases.
Prevention and treatment of infections in solid and stem cell transplant patients and other immunocompromised patients.
<p>Betsy Herold, MD, is Chief of the Division of Pediatric Infectious Diseases and Vice Chair for Research at Children's Hospital at Montefiore. Dr. Herold is also a Professor of Pediatrics, Microbiology & Immunology, and Obstetrics & Gynecology and Women's Health at our Albert Einstein College of Medicine. She specializes in pediatric infectious diseases. </p><p>Dr. Herold received her Bachelor of Arts in Biology in 1978 from Brown University and went on to receive her Doctor of Medicine from the University of Pennsylvania Medical School in 1982. Dr. Herold completed an internship and residency in pediatrics at Children's Memorial Hospital, where she became a Chief Resident in 1985. She then began a fellowship in research at Hagedorn Research Laboratory in Gentofte, Denmark. In 1987, Dr. Herold began a fellowship in pediatric infectious diseases at Children's Memorial Hospital, followed by a Research Associate/Postdoctoral Virology Fellowship in the Department of Microbiology and Immunology at Northwestern University in Chicago. </p><p>Dr. Herold's clinical research focuses on the prevention and treatment of infections in solid and stem cell transplant patients and other immunocompromised patients. Dr. Herold has also been involved in research in Kawasaki disease and the emergence of methicillin-resistant staphylococcus aureus (MRSA) in the community. Dr. Herold directs a basic and translational research program on the prevention of herpes simplex virus (HSV) and HIV infections through the development of vaccines and novel antivirals. The current major focus of her lab is on a novel, paradigm-shifting, single-cycle vaccine to prevent HSV-1 and HSV-2. She has been continuously funded by the NIH since 1989. Dr. Herold has over 150 peer reviewed publications in peer-reviewed journals and has presented her work internationally. </p><p>In 2012, Dr. Herold received the Clinical Science Faculty Mentor Award from the Albert Einstein College of Medicine. She has also been awarded the Henry and Jacob Lowenberg Prize in Pediatrics and the Pediatric Infectious Disease Young Investigator Award. Dr. Herold is board certified by the American Board of Pediatrics in Pediatrics and in Pediatric Infectious Diseases. </p>