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Kim D. Janda (born August 23, 1957) is an American chemist who studies on medicinal chemistry, molecular biology, immunology and neuropharmacology.

Janda currently holds the rank of the Ely R. Callaway, Jr. Chaired Professor in the Departments of Chemistry and Immunology at The Scripps Research Institute (TSRI) in La Jolla, California, and is also the director of the Worm Institute of Research and Medicine (WIRM) and a Skaggs Scholar within the Skaggs Institute of Chemical Biology, both at TSRI. He has been the recipient of numerous awards including an NIH First Award (1990), Sloan Fellowship (1993) and the Arthur C. Cope Scholar Award (1999).
Education

Janda obtained a B.S. in clinical chemistry from the University of South Florida in 1980. He then studied at the University of Arizona and obtained a M.S. in organic chemistry (1983) and a Ph.D. in 1984. He carried out postdoctoral research at the Research Institute of Scripps Clinic (which would later become The Scripps Research Institute), where he remained, becoming a full professor in 1996.
Research
Immunology

Janda's independent career started working on catalytic antibodies. In 1993, his group was the first to describe how a catalytic antibody can reroute a chemically disfavored reaction to give an endo Diels-Alder cyclization product rather than the uncatalyzed exo product.[1] A second research infusion in this area attributable to Janda was the elucidation of the concept of reactive immunization.[2]

A second area of research Janda's group has pioneered is the field of "immunopharmacotherapy" a term coined by Janda's laboratory to describe the use of the immune system to target drug addiction[3][4] and obesity. Janda demonstrated that one could manipulate the immune system to generate antibodies against cocaine.[5] He has demonstrated that antibodies resulting from this approach can protect from the lethal effects of cocaine overdose, even when administered after cocaine exposure.[6] Recently, he detailed the treatment of cocaine addiction with viruses.[7] Janda and colleagues then showed that an active vaccine against the orexigenic hormone ghrelin can slow the rate of weight gain, and adiposity, and do this through an entirely metabolic mechanism, as food intake was unchanged.[8]
Encoded combinatorial libraries

Another area of medicinal research in which the Janda laboratory has made contributions encompasses techniques to create molecular diversity, uncover active components from complex mixtures and the separation of synthetic targets by phase tagging. He has published methodologies that allow implementation of what has been termed "encoded combinatorial libraries", providing a means whereby the alternating parallel synthesis of peptides and oligonucleotides can be performed in a routine manner.[9] His group has also demonstrated a technology termed "recursive deconvolution of combinatorial libraries"[10] and "liquid phase combinatorial synthesis"[11] which showed that reactants, products and by-products can be effectively "tagged" and targeted to different phases,.
Nornicotine

The Janda laboratory demonstrated that nornicotine, a constituent of tobacco, can catalyze aldol reactions in water: the only known example of a metabolite capable of serving as a catalyst.[12] This finding has led him to propose new chemical links between smoking and metabolic diseases, including that nornicotine causes aberrant protein glycation and thus provides an unrecognized pathway for the development of the pathology of tobacco use disorder; additionally nornicotine also catalyzes the covalent modification of certain prescription drugs such as the commonly used steroid, prednisone.[13] These findings were crucial to his group’s publication on the glycation of the amyloid β-peptide by nornicotine, proposing the hypothesis that there is a fortuitous chemical dynamic between smoking and Alzheimer's disease.[14] More recently, Janda’s group has found that nornicotine can also catalyze the isomerization of retinal molecules, implicating nornicotine in the pathology of both age-related macular degeneration as well as smoking-related developmental abnormalities.[15] Lastly, his group has linked this glycation process to methamphetamine addiction.[16]
Cell-to-cell communication

Janda’s group has also begun explorations in the area of cell-to-cell communication. His group was the first to report a successful chemical synthesis of AI-2, a compound that is employed by both Gram positive and Gram negative bacteria for interspecies communication.[17] The completion of the synthesis has allowed the validation of a boronate ester complex of AI-2 as the active signaling species in the symbiotic bacteria V. harveyi.
Cancer therapy

Janda has also worked creating peptide and antibody molecules for the treatment of cancer. By employing a novel approach, he was able to access and screen a wide range of proteins using both sequence space and conformational space.[18] By panning this library against a B lymphoctye cell line, a unique cell-binding and internalizing peptide was discovered.[19] Further mechanistic studies of this peptide uncovered a dimerization "switch" that modulates the cell-penetrating activity.[20] In addition to these studies, Janda has also examined the development of effective immunotherapies for the treatment of cancer. His group has demonstrated that a synthetically prepared cell-surface glycosphingolipid can be utilized as a panning reagent to identify fully human single chain antibodies (scFvs) that are selective for melanoma and breast tumor cells.[21] The Janda laboratory has also identified a scFv specific for the integrin α3β1 that is internalized by human pancreatic cancer cells;[22] subsequent studies have employed this antibody conjugated with the potent cytotoxic compound duocarmycin SA for the selective delivery of chemotherapeutic agents.[23]
Professional awards and associations

Member of the Board of Trustees, The Skaggs Institute for Research, 2006
Arthur C. Cope Scholar Award, 1999
Alfred P. Sloan Fellowship, 1993–1995
NIH FIRST Award, 1990–1995
Fellow, American Institute of Chemists, 1986–present
American Chemical Society, 1981–present

Further reading

New York Times article, 3 Oct 2011

See also

The Scripps Research Institute

External links

Janda Group Homepage at The Scripps Research Institute
Kim D. Janda's CV

References

Janda, K.; Shevlin, C.; Lerner, R. (January 22, 1993). "Antibody catalysis of a disfavored chemical transformation". Science. 259 (5094): 490–493. Bibcode:1993Sci...259..490J. doi:10.1126/science.8424171. PMID 8424171.
Wirsching, P.; Ashley, J. A.; Lo, C.-H. L.; Janda, K. D.; Lerner, R. A. (December 15, 1995). "Reactive Immunization". Science. 270 (5243): 1775–1783. Bibcode:1995Sci...270.1775W. doi:10.1126/science.270.5243.1775. PMID 8525366. S2CID 36700296.
Douglas Quenqua (October 3, 2011). "An Addiction Vaccine, Tantalizingly Close". New York Times.
Lin, Mingliang; Lee, Jinny Claire; Blake, Steven; Ellis, Beverly; Eubanks, Lisa M.; Janda, Kim D. (January 25, 2021). "Broadly Neutralizing Synthetic Cannabinoid Vaccines". JACS Au. 1 (1): 31–40. doi:10.1021/jacsau.0c00057. PMC 8395583. PMID 34467269.
Carrera, M. Rocío A.; Ashley, Jon A.; Parsons, Loren H.; Wirsching, Peter; Koob, George F.; Janda, Kim D. (December 14, 1995). "Suppression of psychoactive effects of cocaine by active immunization". Nature. 378 (6558): 727–730. Bibcode:1995Natur.378..727C. doi:10.1038/378727a0. PMID 7501020. S2CID 4314332.
Carrera, M. Rocío A.; Trigo, José Manuel; Wirsching, Peter; Roberts, Amanda J.; Janda, Kim D. (August 2005). "Evaluation of the anticocaine monoclonal antibody GNC92H2 as an immunotherapy for cocaine overdose". Pharmacology Biochemistry and Behavior. 81 (4): 709–714. doi:10.1016/j.pbb.2005.04.018. PMID 16005948. S2CID 20241635.
Carrera, M. R. A.; Kaufmann, G. F.; Mee, J. M.; Meijler, M. M.; Koob, G. F.; Janda, K. D. (June 28, 2004). "Treating cocaine addiction with viruses". Proceedings of the National Academy of Sciences. 101 (28): 10416–10421. Bibcode:2004PNAS..10110416C. doi:10.1073/pnas.0403795101. PMC 478586. PMID 15226496.
Zorrilla, E. P.; Iwasaki, S.; Moss, J. A.; Chang, J.; Otsuji, J.; Inoue, K.; Meijler, M. M.; Janda, K. D. (August 4, 2006). "Vaccination against weight gain". Proceedings of the National Academy of Sciences. 103 (35): 13226–13231. Bibcode:2006PNAS..10313226Z. doi:10.1073/pnas.0605376103. PMC 1559781. PMID 16891413.
Nielsen, John; Brenner, Sydney; Janda, Kim D. (October 1993). "Synthetic methods for the implementation of encoded combinatorial chemistry". Journal of the American Chemical Society. 115 (21): 9812–9813. doi:10.1021/ja00074a063.
Erb, E.; Janda, K. D.; Brenner, S. (November 22, 1994). "Recursive deconvolution of combinatorial chemical libraries". Proceedings of the National Academy of Sciences. 91 (24): 11422–11426. Bibcode:1994PNAS...9111422E. doi:10.1073/pnas.91.24.11422. PMC 45243. PMID 7972077.
Han, H.; Wolfe, M. M.; Brenner, S.; Janda, K. D. (July 3, 1995). "Liquid-phase combinatorial synthesis". Proceedings of the National Academy of Sciences. 92 (14): 6419–6423. Bibcode:1995PNAS...92.6419H. doi:10.1073/pnas.92.14.6419. PMC 41529. PMID 7541541.
Dickerson, Tobin J.; Lovell, Timothy; Meijler, Michael M.; Noodleman, Louis; Janda, Kim D. (October 2004). "Nornicotine Aqueous Aldol Reactions: Synthetic and Theoretical Investigations into the Origins of Catalysis". The Journal of Organic Chemistry. 69 (20): 6603–6609. doi:10.1021/jo048894j. PMID 15387581.
Dickerson, T. J.; Janda, K. D. (October 28, 2002). "A previously undescribed chemical link between smoking and metabolic disease". Proceedings of the National Academy of Sciences. 99 (23): 15084–15088. Bibcode:2002PNAS...9915084D. doi:10.1073/pnas.222561699. PMC 137547. PMID 12403823.
Dickerson, T. J.; Janda, K. D. (June 18, 2003). "Glycation of the amyloid -protein by a nicotine metabolite: A fortuitous chemical dynamic between smoking and Alzheimer's disease". Proceedings of the National Academy of Sciences. 100 (14): 8182–8187. Bibcode:2003PNAS..100.8182D. doi:10.1073/pnas.1332847100. PMC 166203. PMID 12815102.
Brogan, A. P.; Dickerson, T. J.; Boldt, G. E.; Janda, K. D. (July 13, 2005). "Altered retinoid homeostasis catalyzed by a nicotine metabolite: Implications in macular degeneration and normal development". Proceedings of the National Academy of Sciences. 102 (30): 10433–10438. Bibcode:2005PNAS..10210433B. doi:10.1073/pnas.0504721102. PMC 1180800. PMID 16014706.
Dickerson, Tobin J.; Yamamoto, Noboru; Ruiz, Diana I.; Janda, Kim D. (September 2004). "Immunological Consequences of Methamphetamine Protein Glycation". Journal of the American Chemical Society. 126 (37): 11446–11447. doi:10.1021/ja047690h. PMID 15366884.
Meijler, Michael M.; Hom, Louis G.; Kaufmann, Gunnar F.; McKenzie, Kathleen M.; Sun, Chengzao; Moss, Jason A.; Matsushita, Masayuki; Janda, Kim D. (April 13, 2004). "Synthesis and Biological Validation of a Ubiquitous Quorum-Sensing Molecule". Angewandte Chemie International Edition. 43 (16): 2106–2108. doi:10.1002/anie.200353150. PMID 15083457.
Gao, C.; Mao, S.; Lo, C.-H. L.; Wirsching, P.; Lerner, R. A.; Janda, K. D. (May 25, 1999). "Making artificial antibodies: A format for phage display of combinatorial heterodimeric arrays". Proceedings of the National Academy of Sciences. 96 (11): 6025–6030. Bibcode:1999PNAS...96.6025G. doi:10.1073/pnas.96.11.6025. PMC 26829. PMID 10339535.
Gao, Changshou; Mao, Shenlan; Ditzel, Henrik J.; Farnaes, Lauge; Wirsching, Peter; Lerner, Richard A.; Janda, Kim D. (December 2002). "A cell-penetrating peptide from a novel pVII–pIX phage-displayed random peptide library". Bioorganic & Medicinal Chemistry. 10 (12): 4057–4065. doi:10.1016/S0968-0896(02)00340-1. PMID 12413859.
Moss, Jason A.; Lillo, Antonietta; Kim, Young Soo; Gao, Changshou; Ditzel, Henrik; Janda, Kim D. (January 2005). "A Dimerization "Switch" in the Internalization Mechanism of a Cell-Penetrating Peptide". Journal of the American Chemical Society. 127 (2): 538–539. doi:10.1021/ja0443171. PMID 15643874.
Lee, Kyung Joo; Mao, Shenlan; Sun, Chengzao; Gao, Changshou; Blixt, Ola; Arrues, Sandra; Hom, Louis G.; Kaufmann, Gunnar F.; Hoffman, Timothy Z.; Coyle, Avery R.; Paulson, James; Felding-Habermann, Brunhilde; Janda, Kim D. (October 2002). "Phage-Display Selection of a Human Single-Chain Fv Antibody Highly Specific for Melanoma and Breast Cancer Cells Using a Chemoenzymatically Synthesized G−Carbohydrate Antigen". Journal of the American Chemical Society. 124 (42): 12439–12446. doi:10.1021/ja020737j. PMID 12381184.
Gao, Changshou; Mao, Shenlan; Ronca, Francesca; Zhuang, Sufei; Quaranta, Vito; Wirsching, Peter; Janda, Kim D (March 2003). "De novo identification of tumor-specific internalizing human antibody–receptor pairs by phage-display methods". Journal of Immunological Methods. 274 (1–2): 185–197. doi:10.1016/S0022-1759(02)00522-7. PMID 12609544.
Lillo, Antonietta M; Sun, Chengzao; Gao, Changshou; Ditzel, Henrik; Parrish, Jay; Gauss, Carla-Marie; Moss, Jason; Felding-Habermann, Brunhilde; Wirsching, Peter; Boger, Dale L; Janda, Kim D (July 2004). "A Human Single-Chain Antibody Specific for Integrin α3β1 Capable of Cell Internalization and Delivery of Antitumor Agents". Chemistry & Biology. 11 (7): 897–906. doi:10.1016/j.chembiol.2004.04.018. PMID 15271348.

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