Additional Titles

• Director of Translational Medicine, Division of Nephrology

Related Links

• The Herrlich Lab

Location

Patients seen at

Dr. Herrlich in the News:

• Andreas Herrlich Receives VA Merit Award
• Dr. Andreas Herrlich Receives 1.45M R01 Grant to Study Amphiregulin and Kidney Fibrosis
• Andreas Herrlich Heads EMBO Summer Lecture on Fibrosis
• Herrlich Awarded $1.125M Grant from NIDDK to Study ADAM17

Education

• Nephrology Training: Brigham and Women’s Hospital/Massachusetts General Hospital
• Chief Residency: Johns Hopkins Bayview Medical Center
• Residency: Johns Hopkins Bayview Medical Center
• Medical Degree: Berlin, Germany (0)

Board Certifications

• Medical License
• Ameican Board of Internal Medicine
• American Board of Nephrology
• Missouri Medical License

Research Interests

Our Lab is interested in understanding cellular and molecular mechanisms that orchestrate tissue injury, repair and fibrosis in the kidney as well as deleterious effects of kidney disease in other organs (interorgan crosstalk).

Acute kidney injury (AKI) and fibrotic chronic kidney disease (CKD) and their secondary complications, cardiovascular disease and lung injury, are highly prevalent world-wide and cause significant morbidity and mortality. Therapeutic strategies to prevent kidney injury or fibrosis and secondary organ damage are lacking.

Recently, we are particularly interested in kidney-released growth factors, cytokines and their receptors that control injury, repair and fibrosis in the kidney and that are involved in organ to organ crosstalk, such as the kidney-lung, kidney-heart or kidney-liver axis.

We are using mouse models of acute kidney injury and chronic kidney disease, combined with cardiac, lung or liver injury, as well as cell culture models. We are defining critical cell types and signaling mediators/pathways involved in tissue injury-repair, fibrosis and organ crosstalk using a combination of cell-based studies, genomic/bioinformatics analysis (shRNA, siRNA, CRISPR-Cas9, functional genomics, single cell RNAseq), novel genetically-engineered mouse models, clinical specimens, and targeted therapeutics.

Visit the Herrlich Lab.

Diversity, Equity and Inclusion

My laboratory and I are committed to diversity, inclusion, equity, and social justice in higher education. Over my career to date, I have trained and long-term mentored a large and very diverse group of trainees, stemming from different societal, cultural, religious, and racial backgrounds from all over the world, including a large number of females trainees.

I am also currently mentoring and teaching a very diverse group of undergraduates, graduate students, postdoctoral fellows, and junior faculty. Recent trainees include for example a female PhD student from Egypt, two male postdoctoral fellows from Japan and China, a female technician from Morocco, a female trainee from Greece, a female Master student from India, and a male Master student from Pakistan.

Publications

Selected Publications

Kefaloyianni E., Raja Keerthi Raja M., Schumacher J., Muthu ML., Krishnadoss V., Waikar SS, Herrlich A (2019) Proximal tubule-derived amphiregulin amplifies and integrates profibrotic EGFR signals in kidney fibrosis. Journal of the American Society of Nephrology, accepted, accepted August 2019.

Kefaloyianni E, Muthu LM, Kaeppler J, Sun X, Sabbisetti V, Chalaris A, Rose-John S, Wong E, Sagi I, Waikar SS, Rennke H, Humphreys BD, Bonventre JV., Herrlich A.* (2016) ADAM17 substrate release in proximal tubule drives kidney fibrosis. Journal of Clinical Investigation Insight, 18;1(13). pii: e87023; PMID: 27642633.

Parra L., Hartmann M., Schubach S., Yong L., Herrlich P.* and Herrlich A.* (2016) Growth factor and co-receptor release by structural regulation of substrate metalloprotease accessibility. Scientific Reports, 2016 Nov 23;6:37464.  DOI: 10.1038/srep37464. *co-senior authors.

Hartmann, M., Parra, L. M., Ruschel, A, Lindner, C., Morrison, H., Herrlich, A.*, and Herrlich, P*. (2015) Inside-out Regulation of Ectodomain Cleavage of Cluster-of-Differentiation-44 [CD44] and of Neuregulin-1 requires Substrate Dimerization. The Journal of Biological Chemistry, PMID: 25925953. *co-senior authors.
“JBC Paper of the week” and “JBC Paper of the Year 2015” in the Signal Transduction Category

Dang M., Armbruster N., Miller M. A., Cermeno E., Hartmann M., Bell G. W., Root D. E., Lauffenburger D. A., Lodish H. F., and Herrlich A. (2013) Regulated ADAM17-dependent EGF family ligand release by substrate-selecting signaling pathways. Proceedings of the National Academy of Sciences of the United States of America, 110, 9776-9781; PMID: 23720309. Editor’s choice Science Signaling: http://stke.sciencemag.org/content/6/280/ec140