A beta forms amyloid fibrils

Tanzi Lab - Genetics and Aging Research Unit

Dr. Rudolph Tanzi is carrying out genome-wide association screens to identify novel genes associated with AD and autism spectrum disorders.


Since 1982, Dr. Tanzi has focused his studies on Alzheimer's disease (AD). He isolated the first familial Alzheimer's disease (FAD) gene, known as the amyloid beta-protein (A4) precursor (APP) in 1987, and another in 1995, called presenilin 2. He also collaborated on the isolation of the second FAD gene, presenilin 1.

In 1993, Dr. Tanzi isolated the gene responsible for the neurological disorder known as Wilson's disease, and over the past 25 years, he has collaborated on studies identifying several other neurodegenerative disease genes including those causing amyotrophic lateral sclerosis and neurofibromatosis.

Dr. Tanzi’s laboratory first discovered that the metals zinc and copper are necessary for the formation of neurotoxic assemblies of the AD-associated peptide, A-beta, the main component of beta-amyloid deposits in brains of AD patients. These studies have led to ongoing clinical trials for treating and preventing AD by targeting A-beta metal interactions. Dr. Tanzi was also involved in the first studies implicating gamma-secretase modulators as therapeutics for AD.

Dr. Tanzi is currently carrying out genome wide association screens to identify novel genes associated with AD and autism spectrum disorders. Candidate disease genes are then characterized at the molecular, cell biological, and biochemical levels to elucidate disease mechanisms.

Research Projects

A beta attacking bacteria, forming beta-amyloid fibrils

Alzheimer's Disease-Associated Amyloid beta-Protein

A recent study from the Tanzi Lab and collaborators suggests that A-beta is a hitherto unrecognized antimicrobial peptide (AMP) that may normally function in the innate immune system. This finding stands in stark contrast to current models of A-beta-mediated pathology and has important implications for ongoing and future AD treatment strategies.

We have shown that A-beta is active against at least eight common and clinically relevant microorganisms. This photomicrograph (18,500x) shows bacteria being attacked by A-beta, which is forming beta-amyloid fibrils and attaching to other the bacteria in the picture. The fibrils eventually entrap the bacteria and cause them to lyse.

A low magnification electron micrograph of the same experiment shows the result of A-beta added to bacteria (left side), compared with the right side, with no A-beta.

A-beta attacking bacteria

Study co-authors:Lee Goldstein, MD; Robert Moir, PhD; Rudy Tanzi, PhD

Mass General News – Alzheimer’s-associated Protein
Public Library of Science article (PloS One)

Research Positions

Request a list of currently open positions at mghneurologyjobs@partners.org.

Read about and apply for residency, fellowship and observership programs at http://www.massgeneral.org/neurology/education/.

All applicants should register with the Mass General Careers Web site at http://www.massgeneral.org/careers/viewall.aspx.



Contact Us

MassGeneral Institute for Neurodegenerative Disease

Building 114, Charlestown Navy Yard

114 16th Street, Room 2003Mailcode: CNY B114-2-2003 Charlestown, MA 02129
  • Near Public Transit
  • Accessible
  • Phone: 617-726-2000
  • Fax: 617-724-1480

How to Apply for Positions

How to apply for jobs: Send an e-mail to mghneurologyjobs@partners.org to receive an automated e-mail with full instructions for all types of positions.

Fundraising Contact

Contact Krista McCabe in the Mass General Development office at 617-726-1392 or KMCCABE@PARTNERS.ORG.


Anne B. Young, MD, PhD
Director, Massgeneral Institute for Neurodegenerative Disease 
Professor of Neurology, Harvard Medical School

Clinical Appointments, Consultations & Clinical Trials

Please visit the main Neurology Service Contact page for all other contact information.

Back to Top