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Special Meeting Materials and Voting

Proxy Statement 

View a user-friendly web version of our Special Meeting Proxy Statement online now.

Vote Now

Your vote is IMPORTANT! Vote by phone by dialing 866-286-3110 or online now.

Annual Meeting Materials

Proxy Statement 

View a user-friendly web version of our Annual Meeting Proxy Statement online now.

Annual Report

View a user-friendly web version of our Annual Report online now.

Request Paper Materials

You may request paper copies of the proxy materials by phone, email or online. 
To request by phone dial 866-648-8133.

Special Meeting Details

Date

December 16, 2020

Time

9:00 AM ET

Virtual Meeting

To Register for the Meeting


Deadline to Register*

December 14, 2020
5:00 PM ET


*Note: You must register by the deadline to be eligible to participate in the meeting.

About Us

Proteostasis Therapeutics, Inc. is an innovative biopharmaceutical company committed to the discovery and development of novel therapeutics that treat diseases caused by an imbalance in the proteostasis network, a set of pathways that control protein biosynthesis, folding, trafficking and clearance. Our initial therapeutic focus is on cystic fibrosis, or CF, which is caused by defects in the cystic fibrosis transmembrane conductance regulator, or CFTR, protein and insufficient CFTR protein function. CF is an orphan disease that affects an estimated 70,000 to 100,000 patients worldwide, with the vast majority of affected individuals in the United States, Canada, Europe and Australia. CF is the most common fatal inherited disease in Caucasians, and there is presently no cure.

Our founders and scientific advisory board members include many of the world’s foremost proteostasis network experts and serve as an ongoing resource to complement our internal team’s core competencies. Leveraging our unique and comprehensive expertise of the proteostasis network, we have developed the Disease Relevant Translation, or DRT, technology platform, a validated drug screening approach for identifying highly translatable therapeutics based on predictive and functionally pertinent phenotypic assays and disease relevant models. Using this proprietary platform, we identified a new class of small molecules, which we call amplifiers that modulate proteins in the proteostasis network.

To learn more visit us at www.proteostasis.com.