Jeffrey Bluestone

Last updated
Jeffrey A. Bluestone
Born1953
NationalityAmerican
Alma mater Rutgers State University, Cornell Graduate School of Medical Science
Known forT cell activation and immune tolerance in autoimmunity, organ transplantation, and cancer[ verification needed ]
Scientific career
Fields Immunology
Institutions University of California, San Francisco
Doctoral advisor Carlos Lopez
Other academic advisors David Sachs [ not verified in body ]
Website bluestonelab.ucsf.edu

Jeffrey A. Bluestone (born in 1953) is an American researcher who is the A.W. and Mary Margaret Clausen Distinguished Professor Emeritus of Metabolism and Endocrinology at the University of California, San Francisco, [1] and was previously executive vice chancellor and provost of that university. [2] He began the UCSF affiliation in 2000, after earlier positions at the NCI-NIH, and at The University of Chicago. [1] [ third-party source needed ]

Contents

His research is focused on understanding T cell activation and immune tolerance in autoimmunity and organ transplantation. In April 2016, he co-founded and served as the president and CEO of the Parker Institute for Cancer Immunotherapy,. [3] In 2019, he co-founded and is Chief Executive Officer and President of Sonoma Biotherapeutics. [4]

Early life and education

Jeffrey A. Bluestone was born in 1953 in Ft. Sill, OK. Bluestone earned his undergraduate and masters degrees in microbiology from Rutgers State University, and his doctoral degree in immunology from Cornell Graduate School of Medical Science. [1] [ third-party source needed ]

Career

Bluestone started his career in a series of positions at the National Cancer Institute, a part of the National Institutes of Health, where he rose over a period of 7 years to become a senior investigator in the NCI's Immunology Branch. [1] [ third-party source needed ] He then took a position at The University of Chicago as a member of the Ben May Institute for Cancer Research, and as an associate professor (in pathology [ citation needed ]). [1] [ third-party source needed ] Over 13 years—from 1987 to 2000[ citation needed ]—he rose to become chairman of the University's Committee on Immunology,[ citation needed ] and director of that institute, [1] a role he served in from 1995 to 2000.[ citation needed ]

In 2000, he moved to the University of California, San Francisco, [1] to direct the UCSF Diabetes Center and metabolic research unit.[ citation needed ] Beginning at least 2011, Bluestone headed the Immune Tolerance Network,[ needs update ] [2] [5] [ third-party source needed ] a consortium of over 1000 scientists to focus efforts on the development of immune tolerance therapies,[ citation needed ] a position that as of January 2022 he listed as a previous one at his UCSF profile. [1] At one time, he was in leadership at the Brehm Coalition;[ clarification needed ][ when? ] [5] as of January 2022 he was listed as an emeritus member there. [6]

Bluestone became UCSF's interim vice chancellor of research in 2008. [1] In 2009, the efforts of a UCSF committee led by Bluestone made that university a leading institutional recipient of science-directed funds available to universities from the American Recovery and Reinvestment Act. [1] [ third-party source needed ] He became executive vice chancellor and provost of UCSF in 2010, [1] [2] a position he held until 2015.[ citation needed ] As provost, as of 2011 he had set up collaborations with Pfizer, Sanofi-Aventis, and Bayer, [2] [ needs update ] as well as many other UCSF-industry collaborations.[ citation needed ]

As of January 2022, Bluestone is the A.W. and Mary Margaret Clausen Distinguished Professor of Metabolism and Endocrinology, and the director of the Hormone Research Institute in the Diabetes Center at UCSF. [1] (He is a previous director of the Diabetes Center,[ when? ] per se. [1] ) As of April 2016, he was serving as the president and CEO of the Parker Institute for Cancer Immunotherapy. [3]

Since this date,[ when? ] Bluestone has been a member of the editorial board for Immunity .[ citation needed ]

Research

As of January 2022, Bluestone's research group focuses on studying the role of T cell receptors on regulatory T cells ("Tregs").[ citation needed ] In the early 90s, he identified the role of CD28 and its interaction with CTLA-4 [7] [ non-primary source needed ] The development of soluble receptors of CTLA-4 led to the development of the drugs abatacept and later belatacept. [8] [ non-primary source needed ] Further work with James P. Allison to target CTLA-4 resulted in the development of immune checkpoint therapies also known as immunotherapy.[ citation needed ] This led to the clinical development of ipilimumab (Yervoy™), which was approved in 2011 by the FDA for the treatment of metastatic melanoma.[ citation needed ] Their current work on understanding Tregs has been discussed as an avenue to further developments in the treatment Type 1 Diabetes. [9]

Awards and recognition

Bluestone was elected as a fellow to the American Academy of Arts and Sciences in 2006, [1] [ third-party source needed ] and as a member of the National Academy of Medicine.[ when? ][ citation needed ]. In 2023, he was elected to the National Academy of Sciences.

He has received the Mary Tyler Moore and Robert Levine Excellence in Clinical Research Award from the Juvenile Diabetes Research Foundation,[ when? ] and an award for distinguished alumni from his doctoral institution.[ when? ] [1] [ third-party source needed ]

Related Research Articles

Immunotherapy or biological therapy is the treatment of disease by activating or suppressing the immune system. Immunotherapies designed to elicit or amplify an immune response are classified as activation immunotherapies, while immunotherapies that reduce or suppress are classified as suppression immunotherapies. Immunotherapy is under preliminary research for its potential to treat various forms of cancer.

The regulatory T cells (Tregs or Treg cells), formerly known as suppressor T cells, are a subpopulation of T cells that modulate the immune system, maintain tolerance to self-antigens, and prevent autoimmune disease. Treg cells are immunosuppressive and generally suppress or downregulate induction and proliferation of effector T cells. Treg cells express the biomarkers CD4, FOXP3, and CD25 and are thought to be derived from the same lineage as naïve CD4+ cells. Because effector T cells also express CD4 and CD25, Treg cells are very difficult to effectively discern from effector CD4+, making them difficult to study. Research has found that the cytokine transforming growth factor beta (TGF-β) is essential for Treg cells to differentiate from naïve CD4+ cells and is important in maintaining Treg cell homeostasis.

<span class="mw-page-title-main">FOXP3</span> Immune response protein

FOXP3, also known as scurfin, is a protein involved in immune system responses. A member of the FOX protein family, FOXP3 appears to function as a master regulator of the regulatory pathway in the development and function of regulatory T cells. Regulatory T cells generally turn the immune response down. In cancer, an excess of regulatory T cell activity can prevent the immune system from destroying cancer cells. In autoimmune disease, a deficiency of regulatory T cell activity can allow other autoimmune cells to attack the body's own tissues.

<span class="mw-page-title-main">Cytotoxic T-lymphocyte associated protein 4</span> Mammalian protein found in humans

Cytotoxic T-lymphocyte associated protein 4, (CTLA-4) also known as CD152, is a protein receptor that functions as an immune checkpoint and downregulates immune responses. CTLA-4 is constitutively expressed in regulatory T cells but only upregulated in conventional T cells after activation – a phenomenon which is particularly notable in cancers. It acts as an "off" switch when bound to CD80 or CD86 on the surface of antigen-presenting cells. It is encoded by the gene CTLA4 in humans.

Non-obese diabetic or NOD mice, like biobreeding rats, are used as an animal model for type 1 diabetes. Diabetes develops in NOD mice as a result of insulitis, a leukocytic infiltrate of the pancreatic islets. The onset of diabetes is associated with a moderate glycosuria and a non-fasting hyperglycemia. It is recommended to monitor for development of glycosuria from 10 weeks of age; this can be carried out using urine glucose dipsticks. NOD mice will develop spontaneous diabetes when left in a sterile environment. The incidence of spontaneous diabetes in the NOD mouse is 60–80% in females and 20–30% in males. Onset of diabetes also varies between males and females: commonly, onset is delayed in males by several weeks. The mice are known to carry IgG2c allele.

Immune tolerance, also known as immunological tolerance or immunotolerance, refers to the immune system's state of unresponsiveness to substances or tissues that would otherwise trigger an immune response. It arises from prior exposure to a specific antigen and contrasts the immune system's conventional role in eliminating foreign antigens. Depending on the site of induction, tolerance is categorized as either central tolerance, occurring in the thymus and bone marrow, or peripheral tolerance, taking place in other tissues and lymph nodes. Although the mechanisms establishing central and peripheral tolerance differ, their outcomes are analogous, ensuring immune system modulation.

<span class="mw-page-title-main">CD86</span> Mammalian protein found in Homo sapiens

Cluster of Differentiation 86 is a protein constitutively expressed on dendritic cells, Langerhans cells, macrophages, B-cells, and on other antigen-presenting cells. Along with CD80, CD86 provides costimulatory signals necessary for T cell activation and survival. Depending on the ligand bound, CD86 can signal for self-regulation and cell-cell association, or for attenuation of regulation and cell-cell disassociation.

<span class="mw-page-title-main">CD134</span> Protein-coding gene in humans

Tumor necrosis factor receptor superfamily, member 4 (TNFRSF4), also known as CD134 and OX40 receptor, is a member of the TNFR-superfamily of receptors which is not constitutively expressed on resting naïve T cells, unlike CD28. OX40 is a secondary co-stimulatory immune checkpoint molecule, expressed after 24 to 72 hours following activation; its ligand, OX40L, is also not expressed on resting antigen presenting cells, but is following their activation. Expression of OX40 is dependent on full activation of the T cell; without CD28, expression of OX40 is delayed and of fourfold lower levels.

<span class="mw-page-title-main">Ipilimumab</span> Pharmaceutical drug

Ipilimumab, sold under the brand name Yervoy, is a monoclonal antibody medication that works to activate the immune system by targeting CTLA-4, a protein receptor that downregulates the immune system.

<span class="mw-page-title-main">Cancer immunology</span> Study of the role of the immune system in cancer

Cancer immunology (immuno-oncology) is an interdisciplinary branch of biology and a sub-discipline of immunology that is concerned with understanding the role of the immune system in the progression and development of cancer; the most well known application is cancer immunotherapy, which utilises the immune system as a treatment for cancer. Cancer immunosurveillance and immunoediting are based on protection against development of tumors in animal systems and (ii) identification of targets for immune recognition of human cancer.

Chemoimmunotherapy is chemotherapy combined with immunotherapy. Chemotherapy uses different drugs to kill or slow the growth of cancer cells; immunotherapy uses treatments to stimulate or restore the ability of the immune system to fight cancer. A common chemoimmunotherapy regimen is CHOP combined with rituximab (CHOP-R) for B-cell non-Hodgkin lymphomas.

<span class="mw-page-title-main">ICOSLG</span> Protein-coding gene in the species Homo sapiens

ICOS ligand is a protein that in humans is encoded by the ICOSLG gene located at chromosome 21. ICOSLG has also been designated as CD275.

<span class="mw-page-title-main">Lymphocyte-activation gene 3</span>

Lymphocyte-activation gene 3, also known as LAG-3, is a protein which in humans is encoded by the LAG3 gene. LAG3, which was discovered in 1990 and was designated CD223 after the Seventh Human Leucocyte Differentiation Antigen Workshop in 2000, is a cell surface molecule with diverse biological effects on T cell function but overall has an immune inhibitory effect. It is an immune checkpoint receptor and as such is the target of various drug development programs by pharmaceutical companies seeking to develop new treatments for cancer and autoimmune disorders. In soluble form it is also being developed as a cancer drug in its own right.

T helper 3 cells (Th3) are a subset of T lymphocytes with immunoregulary and immunosuppressive functions, that can be induced by administration of foreign oral antigen. Th3 cells act mainly through the secretion of anti-inflammatory cytokine transforming growth factor beta (TGF-β). Th3 have been described both in mice and human as CD4+FOXP3 regulatory T cells. Th3 cells were first described in research focusing on oral tolerance in the experimental autoimmune encephalitis (EAE) mouse model and later described as CD4+CD25FOXP3LAP+ cells, that can be induced in the gut by oral antigen through T cell receptor (TCR) signalling.

<span class="mw-page-title-main">Mark Atkinson (scientist)</span> American medical researcher (born 1961)

Mark Atkinson is an American medical researcher best known for his contributions to research seeking to predict, prevent, and cure type 1 diabetes. He is the author of over 600 publications and is one of the world's most cited diabetes researchers.

<span class="mw-page-title-main">James P. Allison</span> American immunologist and Nobel laureate (born 1948)

James Patrick Allison is an American immunologist and Nobel laureate who holds the position of professor and chair of immunology and executive director of immunotherapy platform at the MD Anderson Cancer Center in Houston, Texas. Dr. Allison is Regental Professor and Founding-Director of James P. Allison Institute at the MD Anderson Cancer Center.

<span class="mw-page-title-main">Immune checkpoint</span> Regulators of the immune system

Immune checkpoints are regulators of the immune system. These pathways are crucial for self-tolerance, which prevents the immune system from attacking cells indiscriminately. However, some cancers can protect themselves from attack by stimulating immune checkpoint targets.

Alexander Marson is an American biologist and infectious disease doctor who specializes in genetics, human immunology, and genome engineering. He is the Director of the Gladstone-UCSF Institute of Genomic Immunology, and a tenured Professor with a dual appointment in the Department of Medicine and the Department of Microbiology & Immunology at the University of California, San Francisco (UCSF).

Tolerogenic dendritic cells are heterogenous pool of dendritic cells with immuno-suppressive properties, priming immune system into tolerogenic state against various antigens. These tolerogenic effects are mostly mediated through regulation of T cells such as inducing T cell anergy, T cell apoptosis and induction of Tregs. Tol-DCs also affect local micro-environment toward tolerogenic state by producing anti-inflammatory cytokines.

Matthew F. Krummel(Max Krummel) is a Professor in the Pathology Department at University of California, San Francisco. He is known for Systems Immunology and studies mechanisms that regulate the immune system.

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Bluestone, Jeffrey (January 26, 2022). "Jeffrey Bluestone, PhD". Profiles.UCSF.edu. Retrieved January 26, 2022.
  2. 1 2 3 4 Timmerman, Luke & Bluestone, Jeff (10 March 2011). "Q&A: UCSF's Jeff Bluestone on the Tricky Balancing Act Between Academia and Industry" (2100-word interview, 300-word introductory biosketch). Xconomy.com . Boston, Mass.: Xconomy, Inc. Retrieved 26 January 2022.{{cite news}}: CS1 maint: multiple names: authors list (link)
  3. 1 2 Farley, Pete (12 April 2016). "UCSF Immunologist to Head New Parker Institute for Cancer Immunotherapy". UC San Francisco. UCSF News. Retrieved 4 August 2016.
  4. Fidler, Ben. "'Treg' cell therapy: bringing CAR-Treg to autoimmune disease". Biopharma Drive. Retrieved 31 August 2022.
  5. 1 2 Brehm Coalition Staff & Bluestone, Jeffrey (4 August 2016). "About Us / Leadership / Jeffrey Bluestone". BrehmCoalition.org. Archived from the original on 2016-08-16. Retrieved 26 January 2022. Jeffrey Bluestone, M.S., Ph.D., is the Director of the University of California, San Francisco Diabetes Center and the Immune Tolerance Network and is AW and Mary Clausen Distinguished Professor of Medicine, Pathology, Microbiology and Immunology. [He] received his undergraduate degree in biology from Rutgers University and a doctorate in immunology from Cornell University. From there he held positions at the National Institute of Health (NIH) and served as the Director of the Ben May Institute for Cancer Research.[ third-party source needed ]
  6. Brehm Coalition Staff (26 January 2022). "About / Emeritus Members / Jeffrey Bluestone". BrehmCoalition.org. Retrieved 26 January 2022.
  7. Walunas, TL; Lenschow, DJ; Bakker, CY; Linsley, PS; Freeman, GJ; Green, JM; Thompson, CB; Bluestone, JA (August 1994). "CTLA-4 can function as a negative regulator of T cell activation". Immunity. 1 (5): 405–13. doi:10.1016/1074-7613(94)90071-x. PMID   7882171.
  8. Levisetti, MG; Padrid, PA; Szot, GL; Mittal, N; Meehan, SM; Wardrip, CL; Gray, GS; Bruce, DS; Thistlethwaite JR, Jr; Bluestone, JA (1 December 1997). "Immunosuppressive effects of human CTLA4Ig in a non-human primate model of allogeneic pancreatic islet transplantation". Journal of Immunology. 159 (11): 5187–91. doi:10.4049/jimmunol.159.11.5187. PMID   9548454. S2CID   11604489.
  9. Conovo, Susan (26 June 2002). "Stopping Diabetes". www.cumc.columbia.edu. No. 11. In Vivo. Archived from the original on 25 January 2017. Retrieved 4 August 2016.
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