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AB0282 (2021)
SAFETY, TOLERABILITY AND SELECTIVE EXPANSION OF REGULATORY T CELLS BY A SINGLE DOSE OF THE NOVEL IL-2 MUTEIN PT101 IN A PHASE 1 STUDY IN HEALTHY VOLUNTEERS
J. S. Sundy1, K. L. Otipoby1, N. Higginson-Scott1, J. Visweswaraiah1, E. Sampson1, K. Kis-Toth1, A. Monsef1, P. Petaipimol1, D. Essayan2, M. E. Cosenza3, R. Kakkar1, J. Viney1
1Pandion Therapeutics, Watertown, MA, United States of America
2Oncord, Inc, West Lake Village, CA, United States of America
3MEC Regulatory Consulting, LLC, Moorpark, CA, United States of America

Background: Activation and expansion of regulatory T cells (Tregs) has been proposed as a strategy to treat autoimmunity. When administered in low doses, IL-2 expands and activates Tregs leading to clinical response in several autoimmune diseases. However, the narrow therapeutic window of IL-2 results in loss of selectivity for Tregs and concurrent activation of conventional T cells (Tconv) and NK cells, limiting its clinical utility. This loss of selectivity may negate the clinical benefit of Treg activation and lead to dose-limiting side effects. PT101 is a novel engineered variant of IL-2 fused to an Fc protein backbone which in preclinical studies selectively activates Tregs without expanding Tconv or NK cells. PT101 is in clinical development for the treatment of patients with autoimmune diseases.


Objectives: To assess the safety, tolerability, pharmacokinetics (PK) and pharmacodynamics (PD) of PT101 after a single dose in healthy human volunteers.


Methods: We conducted a randomized, double-blind, single-ascending dose trial of PT101 or placebo (3:1 allocation). Five dose levels from 1 mg to 10 mg were administered by subcutaneous injection. Adverse events, physical examination findings, and clinical laboratory results were assessed for 29 days. Serum PT101 levels and antidrug antibody were assessed. Changes in mononuclear cell populations were measured in peripheral blood by flow cytometry.


Results: 56 subjects were administered PT101 or placebo. All subjects completed the study. There were no deaths, serious adverse events, dose limiting toxicities, or clinically significant changes in vital sign, ECG, or laboratory results. All adverse events were Grade 1 or 2 and self-limited. Injection site reactions were the most common adverse event. Transient increases in eosinophil counts were observed in some subjects, consistent with the known class effect of IL-2. Peak levels of PT101 occurred 11.0 to 14.6 hours after administration, and declined with a mean half-life of 20.4 to 28.3 hours, demonstrating linear exposure through the dose range. No anti-drug antibodies were induced. PT101 caused dose-related expansion of Tregs that plateaued at doses between 3.5 and 10 mg. Mean maximum expansion above baseline was 3.6-fold for total Tregs and 72.5-fold for the CD25bright subset of Tregs. Maximal expansion was observed by Day 8-10 with a return toward baseline by Day 29. Over 80% of subjects achieved a 2-fold or greater expansion of total Tregs ( Table 1 ). No significant expansion of Tconv or NK cells was observed at any dose level.

Percent Total Treg Responders

Fold Change Total Tregs Placebo (n=14) 1 mg (n=6) 3.5 mg (n=12) 5 mg (n=12) 7.5 mg (n=6) 10 mg (n=6)
≥ 2X 7% 33% 83% 83% 100% 100%
≥ 3X 0% 0% 58% 75% 33% 50%
≥ 4X 0% 0% 24% 42% 33% 17%

Conclusion: PT101 was safe and well tolerated after a single dose in healthy volunteers. Marked expansion of both total Treg and CD25bright Treg cells was observed. High selectivity for Tregs was observed with no significant expansion of pro-inflammatory Tconv and NK cells even at the highest dose studied. These results support the therapeutic potential of PT101 in planned multiple dose studies in systemic lupus erythematosus, ulcerative colitis, and other autoimmune diseases.


REFERENCES:

[1]Klatzmann, D., Abbas, A. The promise of low-dose interleukin-2 therapy for autoimmune and inflammatory diseases. Nat Rev Immunol 15, 283–294 (2015)


Acknowledgements: Pandion Therapeutics acknowledges the participants and research staff who contributed to this clinical trial


Disclosure of Interests: John S Sundy Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Kevin L. Otipoby Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Nathan Higginson-Scott Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Jyothsna Visweswaraiah Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Erik Sampson Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Katalin Kis-Toth Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Adrianne Monsef Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Parika Petaipimol Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, David Essayan Consultant of: Pandion Therapeutics, Mary Ellen Cosenza Consultant of: Pandion Therapeutics, Rahul Kakkar Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics, Jo Viney Shareholder of: Pandion Therapeutics, Employee of: Pandion Therapeutics


Citation: Ann Rheum Dis, volume 80, supplement 1, year 2021, page 1167
Session: SLE, Sjögren’s and APS – treatment (Publication Only)