UNITED STATES
SECURITIES AND EXCHANGE COMMISSION
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FORM
Current Report
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Item 7.01. | Regulation FD Disclosure. |
On October 11, 2019, Jeffrey S. Heier, M.D., Co-President and Director of Retina Research at Ophthalmic Consultants of Boston and primary investigator for REGENXBIO Inc.’s (the “Company”) ongoing Phase I/IIa clinical trial of RGX-314 for the treatment of wet age-related macular degeneration (the “Wet AMD Trial”), presented interim results from the Wet AMD Trial at the American Academy of Ophthalmology 2019 Annual Meeting. A copy of Dr. Heier’s presentation materials, including supplemental information, is furnished as Exhibit 99.1 to this Current Report on Form 8-K and is incorporated by reference herein.
The information in Item 7.01 of this Current Report on Form 8-K and Exhibit 99.1 attached hereto shall not be deemed “filed” for purposes of Section 18 of the Securities Exchange Act of 1934, as amended (the “Exchange Act”), or otherwise subject to liability under that section, nor shall it be deemed incorporated by reference in any filing under the Securities Act of 1933, as amended, or the Exchange Act, except as expressly set forth by specific reference in such a filing.
Item 8.01. | Other Events. |
On October 11, 2019, the Company issued a press release announcing interim results from its Wet AMD Trial. A copy of the press release is filed as Exhibit 99.2 to this Current Report on Form 8-K and is incorporated by reference herein.
Item 9.01. | Financial Statements and Exhibits. |
(d) Exhibits
Exhibit No. |
Description | |||
99.1 |
Presentation materials and supplemental information dated October 11, 2019. | |||
99.2 |
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104 |
The cover page from this Current Report on Form 8-K, formatted in Inline XBRL. |
SIGNATURES
Pursuant to the requirements of the Securities Exchange Act of 1934, the registrant has duly caused this report to be signed on its behalf by the undersigned hereunto duly authorized.
REGENXBIO INC. | ||||
Date: October 11, 2019 |
By: |
/s/ Patrick J. Christmas II | ||
Patrick J. Christmas II | ||||
Senior Vice President, General Counsel |
Exhibit 99.1 Key Takeaways from the RGX-314 Phase I/IIa Clinical Trial for Wet AMD (Cohorts 1-5) Jeffrey Heier, MD Peter Campochiaro, MD, Allen Ho, MD, Albert Maguire, MD, David M. Brown, MD, Robert Avery, MD, Dante Pieramici, MD, Szilard Kiss, MD, Arshad Khanani, MD, Charles Wykoff, MD Samir Patel, MD, Keunpyo Kim, PhD, Darin Curtiss, PharmD, Stephen Pakola, MD, Sherri Van Everen, PharmD AAO Retina Subspecialty Days 10/11/2019Exhibit 99.1 Key Takeaways from the RGX-314 Phase I/IIa Clinical Trial for Wet AMD (Cohorts 1-5) Jeffrey Heier, MD Peter Campochiaro, MD, Allen Ho, MD, Albert Maguire, MD, David M. Brown, MD, Robert Avery, MD, Dante Pieramici, MD, Szilard Kiss, MD, Arshad Khanani, MD, Charles Wykoff, MD Samir Patel, MD, Keunpyo Kim, PhD, Darin Curtiss, PharmD, Stephen Pakola, MD, Sherri Van Everen, PharmD AAO Retina Subspecialty Days 10/11/2019
Disclosures Research grants: Aerie, Aerpio, Apellis, Clearside, Daiichi, Genentech/Roche, Graybug, Gyroscope, Hemera, Janssen R&D, KalVista, Kanghong, Novartis, Ophthotech, Optos, Optovue, Regeneron, Regenxbio, Stealth Biotherapeutics, Thrombogenics, Tyrogenex Scientific Advisor: 4DMT, Adverum, Aerie, Aerpio, Aldeyra, Alkahest, Allegro, Allergan, Annexon, Apellis, Array, Asclepix, Eloxx, Galimedix, Genentech/Roche, Generation Bio, Interface, iRenix, Janssen R&D, jCyte, Kala, Kanghong, Kodiak, NGM Biopharmaceuticals, Notal Vision, Novartis, Ocugenix, Ocular Therapeutix, Omeicos, Orbit/Gyroscope, Regeneron, Regenxbio, Retrotope, Santen, Scifluor, Shire, Stealth Biotherapeutics, Takeda, Voyant Board of Directors: Ocular Therapeutix Equity: Adverum, Aldeyra, Allegro, jCyte, and Ocular Therapeutix 2Disclosures Research grants: Aerie, Aerpio, Apellis, Clearside, Daiichi, Genentech/Roche, Graybug, Gyroscope, Hemera, Janssen R&D, KalVista, Kanghong, Novartis, Ophthotech, Optos, Optovue, Regeneron, Regenxbio, Stealth Biotherapeutics, Thrombogenics, Tyrogenex Scientific Advisor: 4DMT, Adverum, Aerie, Aerpio, Aldeyra, Alkahest, Allegro, Allergan, Annexon, Apellis, Array, Asclepix, Eloxx, Galimedix, Genentech/Roche, Generation Bio, Interface, iRenix, Janssen R&D, jCyte, Kala, Kanghong, Kodiak, NGM Biopharmaceuticals, Notal Vision, Novartis, Ocugenix, Ocular Therapeutix, Omeicos, Orbit/Gyroscope, Regeneron, Regenxbio, Retrotope, Santen, Scifluor, Shire, Stealth Biotherapeutics, Takeda, Voyant Board of Directors: Ocular Therapeutix Equity: Adverum, Aldeyra, Allegro, jCyte, and Ocular Therapeutix 2
RGX-314 Uses a Novel AAV8 Vector to Deliver an anti-VEGF Fab Gene Encoding NAV AAV8 Vector for anti-VEGF fab Cell AAV8 AAV2 anti-VEGF fab RPE Protein RNA Nucleus 1 More Efficient Gene Delivery to the RPE RGX-314 is Designed to Deliver a Gene Encoding for an anti-VEGF fab Protein 1. Vandenberghe et al. 2011 Science Translational Medicine 3RGX-314 Uses a Novel AAV8 Vector to Deliver an anti-VEGF Fab Gene Encoding NAV AAV8 Vector for anti-VEGF fab Cell AAV8 AAV2 anti-VEGF fab RPE Protein RNA Nucleus 1 More Efficient Gene Delivery to the RPE RGX-314 is Designed to Deliver a Gene Encoding for an anti-VEGF fab Protein 1. Vandenberghe et al. 2011 Science Translational Medicine 3
RGX-314 Phase I/IIa wAMD Study Has Fully Enrolled 5 Dose Cohorts Baseline assessment Treatment evaluation Follow up anti–VEGF SD–OCT Anti–VEGF PRN Rescue Injection Criteria injection assessment 0 1 2 6 10 14 18 22 26 54 106 Weeks RGX–314 Safety endpoint administration Secondary endpoints Previously Treated Subjects Requiring Frequent Injections Dose 1 Dose 2 Dose 3 Dose 4 Dose 5 n = 6 n = 6 n = 6 n = 12 n = 12 Safety Safety Safety Safety 9 1 10 1 10 1 11 1 11 3x10 GC/eye review 1x10 GC/eye review 6x10 GC/eye review 1.6x10 GC/eye review 2.5x10 GC/eye Subretinal Dosing Completed in 42 Subjects Across Five Dose Cohorts 1. Dose escalation safety review to occur four weeks after final subject in each cohort has been dosed SD-OCT = spectral domain optical coherence tomography 4RGX-314 Phase I/IIa wAMD Study Has Fully Enrolled 5 Dose Cohorts Baseline assessment Treatment evaluation Follow up anti–VEGF SD–OCT Anti–VEGF PRN Rescue Injection Criteria injection assessment 0 1 2 6 10 14 18 22 26 54 106 Weeks RGX–314 Safety endpoint administration Secondary endpoints Previously Treated Subjects Requiring Frequent Injections Dose 1 Dose 2 Dose 3 Dose 4 Dose 5 n = 6 n = 6 n = 6 n = 12 n = 12 Safety Safety Safety Safety 9 1 10 1 10 1 11 1 11 3x10 GC/eye review 1x10 GC/eye review 6x10 GC/eye review 1.6x10 GC/eye review 2.5x10 GC/eye Subretinal Dosing Completed in 42 Subjects Across Five Dose Cohorts 1. Dose escalation safety review to occur four weeks after final subject in each cohort has been dosed SD-OCT = spectral domain optical coherence tomography 4
Anti-VEGF Retreatment Allowed for Any Fluid or Disease Activity Anti-VEGF may be given beginning 4 weeks post-treatment and PRN every 4 weeks thereafter per investigator’s discretion if one or more of the criteria apply: CNV-related Vision loss of ≥5 increased, New ocular letters associated w/ new, or persistent hemorrhage fluid fluid 5Anti-VEGF Retreatment Allowed for Any Fluid or Disease Activity Anti-VEGF may be given beginning 4 weeks post-treatment and PRN every 4 weeks thereafter per investigator’s discretion if one or more of the criteria apply: CNV-related Vision loss of ≥5 increased, New ocular letters associated w/ new, or persistent hemorrhage fluid fluid 5
Subjects Enrolled in the Phase I/IIa Trial Were Chronically Treated Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 Total Variable (n=6) (n=6) (n=6) (n=12) (n=12) (n=42) Mean Age (Years) 78.2 78.0 80.0 80.3 81.6 80.0 Baseline BCVA 53.7 50.7 54.7 61.3 54.3 55.7 (Snellen equivalents) (20/100) (20/100) (20/80) (20/63) (20/80) (20/80) Baseline OCT 361.7 413.2 359.8 411.3 418.3 399.1 (reading center) (n=6) (n=6) (n=6) (n=12) (n=12) (n=42) Baseline serum AAV8 2 (33.3%) 3 (50.0%) 4 (66.7%) 4 (33.3%) 5 (41.7%) 18 (42.9%) Nab+ with titer >1:10 (%) Months Since First 53.5 59.3 71.7 58.1 45.9 56.1 anti-VEGF Injection # Injections 40.7 32.5 34.2 35.7 26.7 33.1 Since Diagnosis (Mean) Average Annualized 9.6 10.5 6.8 10.2 9.9 9.6 Injections Prior to Entry 6 PRIOR THERAPY BASELINE Subjects Enrolled in the Phase I/IIa Trial Were Chronically Treated Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 Total Variable (n=6) (n=6) (n=6) (n=12) (n=12) (n=42) Mean Age (Years) 78.2 78.0 80.0 80.3 81.6 80.0 Baseline BCVA 53.7 50.7 54.7 61.3 54.3 55.7 (Snellen equivalents) (20/100) (20/100) (20/80) (20/63) (20/80) (20/80) Baseline OCT 361.7 413.2 359.8 411.3 418.3 399.1 (reading center) (n=6) (n=6) (n=6) (n=12) (n=12) (n=42) Baseline serum AAV8 2 (33.3%) 3 (50.0%) 4 (66.7%) 4 (33.3%) 5 (41.7%) 18 (42.9%) Nab+ with titer >1:10 (%) Months Since First 53.5 59.3 71.7 58.1 45.9 56.1 anti-VEGF Injection # Injections 40.7 32.5 34.2 35.7 26.7 33.1 Since Diagnosis (Mean) Average Annualized 9.6 10.5 6.8 10.2 9.9 9.6 Injections Prior to Entry 6 PRIOR THERAPY BASELINE
RGX-314 Has Been Well Tolerated in All Cohorts § RGX–314 was well–tolerated (n=42) § No drug-related SAEs § Most AEs were assessed as mild (Grade 1 – 79%) § No observed clinically determined immune responses, drug-related ocular inflammation, or any post-surgical inflammation beyond what is expected following routine vitrectomy § Fifteen SAEs that were not drug-related were reported in nine subjects – Two deaths unrelated to RGX-314 – Two ocular procedure-related SAEs: peripheral retinal detachment which was repaired and an endophthalmitis post aqueous sample collection * Data cut October 9, 2019 7RGX-314 Has Been Well Tolerated in All Cohorts § RGX–314 was well–tolerated (n=42) § No drug-related SAEs § Most AEs were assessed as mild (Grade 1 – 79%) § No observed clinically determined immune responses, drug-related ocular inflammation, or any post-surgical inflammation beyond what is expected following routine vitrectomy § Fifteen SAEs that were not drug-related were reported in nine subjects – Two deaths unrelated to RGX-314 – Two ocular procedure-related SAEs: peripheral retinal detachment which was repaired and an endophthalmitis post aqueous sample collection * Data cut October 9, 2019 7
Dose Dependent Increase in RGX-314 Protein Observed Across Cohorts As Measured from Aqueous Samples by ECL 1 Month post-RGX-314 500 376.0 ng/ml 400 2 249.4 ng/ml 160.2 ng/ml 300 200 100 12.8 ng/ml 2.5 ng/ml 0 Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 9 10 10 11 11 3 x 10 GC/eye 1 x 10 GC/eye 6 x 10 GC/eye 1.6 x 10 GC/eye 2.5 x 10 GC/eye 1 n=5 n=6 n=6 n=12 n=12 RGX–314 Dose 1. N=5; one subject in Cohort 1 did not have aqueous sample taken at Week 6 2. One subject’s protein concentration measured at Day 17 post RGX-314 administration (no 4 week sample available) 8 Mean RGX–314 Protein (ng/mL)Dose Dependent Increase in RGX-314 Protein Observed Across Cohorts As Measured from Aqueous Samples by ECL 1 Month post-RGX-314 500 376.0 ng/ml 400 2 249.4 ng/ml 160.2 ng/ml 300 200 100 12.8 ng/ml 2.5 ng/ml 0 Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 9 10 10 11 11 3 x 10 GC/eye 1 x 10 GC/eye 6 x 10 GC/eye 1.6 x 10 GC/eye 2.5 x 10 GC/eye 1 n=5 n=6 n=6 n=12 n=12 RGX–314 Dose 1. N=5; one subject in Cohort 1 did not have aqueous sample taken at Week 6 2. One subject’s protein concentration measured at Day 17 post RGX-314 administration (no 4 week sample available) 8 Mean RGX–314 Protein (ng/mL)
Cohort 3: Sustained Visual and Anatomic Outcomes over 1.5 years Best Corrected Visual Acuity (BCVA) 70 70 70 +1 letters 60 60 60 -9 letters 50 +9 letters 50 50 40 40 40 30 30 30 Time Time Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT 600 600 600 +45 µm 500 500 500 -26 µm 400 400 400 -40 µm 300 300 300 200 200 200 Time Time Time 2.6 Injections (annualized) 10.5 Injections (annualized) 9.0 Injections (annualized) 1 Cohort 1 Cohort 2 Cohort 3 1. One subject in Cohort 1 discontinued from the study at four months with four injections and was imputed as requiring one injection per every 4 weeks visit. 9 μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 Yrs 1.5 Yrs μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 Yrs 1.5 Yrs μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 1.5 Yrs YrsCohort 3: Sustained Visual and Anatomic Outcomes over 1.5 years Best Corrected Visual Acuity (BCVA) 70 70 70 +1 letters 60 60 60 -9 letters 50 +9 letters 50 50 40 40 40 30 30 30 Time Time Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT 600 600 600 +45 µm 500 500 500 -26 µm 400 400 400 -40 µm 300 300 300 200 200 200 Time Time Time 2.6 Injections (annualized) 10.5 Injections (annualized) 9.0 Injections (annualized) 1 Cohort 1 Cohort 2 Cohort 3 1. One subject in Cohort 1 discontinued from the study at four months with four injections and was imputed as requiring one injection per every 4 weeks visit. 9 μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 Yrs 1.5 Yrs μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 Yrs 1.5 Yrs μm Letters Read D1 D1 M1 M1 M6 M6 1 Yr 1 Yr 1.5 1.5 Yrs Yrs
Cohort 3: Injection-free Subjects Continue to Do Well Over 1.5 Years Anti-VEGF Injection-free Subjects (n= 3 of 6) Sustained RGX-314 Protein Levels Over 1 Year Best Corrected Visual Acuity (BCVA) +11 letters 70 1000 274.9 260.5 236.2 60 ng/ml ng/ml ng/ml 50 40 D1 M1 M6 1 Yr 1.5 100 Yrs Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT 400 -21 µm 10 300 200 100 D1 M1 M6 1 Yr 1.5 1 Yrs Time Month 1 Month 6 1 Year 10 Mean RGX–314 Protein (ng/mL) (log scale) μm Letters ReadCohort 3: Injection-free Subjects Continue to Do Well Over 1.5 Years Anti-VEGF Injection-free Subjects (n= 3 of 6) Sustained RGX-314 Protein Levels Over 1 Year Best Corrected Visual Acuity (BCVA) +11 letters 70 1000 274.9 260.5 236.2 60 ng/ml ng/ml ng/ml 50 40 D1 M1 M6 1 Yr 1.5 100 Yrs Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT 400 -21 µm 10 300 200 100 D1 M1 M6 1 Yr 1.5 1 Yrs Time Month 1 Month 6 1 Year 10 Mean RGX–314 Protein (ng/mL) (log scale) μm Letters Read
Cohort 4: Visual and Anatomic Outcomes Best Corrected Visual Acuity (BCVA) 80 § Stable to improved vision and OCT +2 Letters 70 on average 60 50 § 42% (5 of 12) injection-free at 6 40 months D1 M1 M2 M3 M4 M5 M6 Time § 2 patients with incomplete response Central Retinal Thickness (CRT) on Heidelberg SD-OCT* to anti-VEGF receiving monthly 600 injections 500 -42 μm 400 300 200 D1 M1 M2 M3 M4 M5 M6 Time 2.2 inj / 6 mo Cohort 4 (n=12) § SD-OCT data read by a central reading center (Duke Reading Center). 11 μm Letters ReadCohort 4: Visual and Anatomic Outcomes Best Corrected Visual Acuity (BCVA) 80 § Stable to improved vision and OCT +2 Letters 70 on average 60 50 § 42% (5 of 12) injection-free at 6 40 months D1 M1 M2 M3 M4 M5 M6 Time § 2 patients with incomplete response Central Retinal Thickness (CRT) on Heidelberg SD-OCT* to anti-VEGF receiving monthly 600 injections 500 -42 μm 400 300 200 D1 M1 M2 M3 M4 M5 M6 Time 2.2 inj / 6 mo Cohort 4 (n=12) § SD-OCT data read by a central reading center (Duke Reading Center). 11 μm Letters Read
Cohort 5: Visual and Anatomic Outcomes Best Corrected Visual Acuity (BCVA) 80 § Stable to improved vision and OCT +4 Letters 70 on average 60 50 § 75% (9 of 12) injection free at 5-6 40 months D1 M1 M2 M3 M4 M5 M6 Time § Highest clinical response observed Central Retinal Thickness (CRT) on Heidelberg SD-OCT* 600 500 400 300 -68 μm 200 D1 M1 M2 M3 M4 M5 M6 Time 0.8 inj / 5 - 6 mo Cohort 5 § SD-OCT data read by a central reading center (Duke Reading Center). 12 § 1 subject discontinued after 4 months μm Letters ReadCohort 5: Visual and Anatomic Outcomes Best Corrected Visual Acuity (BCVA) 80 § Stable to improved vision and OCT +4 Letters 70 on average 60 50 § 75% (9 of 12) injection free at 5-6 40 months D1 M1 M2 M3 M4 M5 M6 Time § Highest clinical response observed Central Retinal Thickness (CRT) on Heidelberg SD-OCT* 600 500 400 300 -68 μm 200 D1 M1 M2 M3 M4 M5 M6 Time 0.8 inj / 5 - 6 mo Cohort 5 § SD-OCT data read by a central reading center (Duke Reading Center). 12 § 1 subject discontinued after 4 months μm Letters Read
Cohort 4 and Cohort 5: Anti-VEGF Injection-free Subjects Best Corrected Visual Acuity (BCVA) 80 80 +5 Letters +2 Letters 70 70 60 60 50 50 40 40 D1 M1 M2 M3 M4 M5 M6 D1 M1 M2 M3 M4 M5 M6 Time Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT* 600 600 500 500 -80 μm -61 μm 400 400 300 300 200 200 D1 M1 M2 M3 M4 M5 M6 D1 M1 M2 M3 M4 M5 M6 Time Time 0 Injections 0 Injections Cohort 4 (n=5) 42% Cohort 5 (n=9) 75% § SD-OCT data read by a central reading center (Duke Reading Center). 13 μm Letters Read μm Letters ReadCohort 4 and Cohort 5: Anti-VEGF Injection-free Subjects Best Corrected Visual Acuity (BCVA) 80 80 +5 Letters +2 Letters 70 70 60 60 50 50 40 40 D1 M1 M2 M3 M4 M5 M6 D1 M1 M2 M3 M4 M5 M6 Time Time Central Retinal Thickness (CRT) on Heidelberg SD-OCT* 600 600 500 500 -80 μm -61 μm 400 400 300 300 200 200 D1 M1 M2 M3 M4 M5 M6 D1 M1 M2 M3 M4 M5 M6 Time Time 0 Injections 0 Injections Cohort 4 (n=5) 42% Cohort 5 (n=9) 75% § SD-OCT data read by a central reading center (Duke Reading Center). 13 μm Letters Read μm Letters Read
Cohort 5: Injections Pre and Post RGX-314 (n=12) 1 2 3 4 5 6 7 8 9 10 11 12 1 Year 0 Month Month Month Month Month Month Time prior to treatment with RGX-314 1 2 3 4 5 6 RGX-314 (n=12) (n=11) (n=5) Months since RGX-314 AFLIBERCEPT BEVACIZUMAB Visit With No Injection RANIBIZUMAB § Subject #1 discontinued after 4 months * Data cut October 9, 2019 14 SubjectCohort 5: Injections Pre and Post RGX-314 (n=12) 1 2 3 4 5 6 7 8 9 10 11 12 1 Year 0 Month Month Month Month Month Month Time prior to treatment with RGX-314 1 2 3 4 5 6 RGX-314 (n=12) (n=11) (n=5) Months since RGX-314 AFLIBERCEPT BEVACIZUMAB Visit With No Injection RANIBIZUMAB § Subject #1 discontinued after 4 months * Data cut October 9, 2019 14 Subject
Cohort 5 11 2.5x10 GC/eye Case A: Subject History Prior to RGX-314 09MAY2018 08AUG2018 31OCT2018 30JAN2019 06JUN2018 05SEP2018 05DEC2018 27FEB2019 11JUL2018 03OCT2018 02JAN2019 27MAR2019 15Cohort 5 11 2.5x10 GC/eye Case A: Subject History Prior to RGX-314 09MAY2018 08AUG2018 31OCT2018 30JAN2019 06JUN2018 05SEP2018 05DEC2018 27FEB2019 11JUL2018 03OCT2018 02JAN2019 27MAR2019 15
Cohort 5 Day 1 – VA 73 letters 1 Month 4 Months 11 2.5x10 GC/eye Case A: 13 Injections in Year Prior with 0 Rescue Injections after Week 1 – OCT response 2 Months 5 Months – VA 75 (+2 letters) RGX-314 Age: 87 Total prior anti-VEGF hx: 40 Last year anti-VEGF: 13 Rescue Inj in Study: 0 RGX-314 1 Week post-RGX-314 3 Months Week 26 – xx letters 16Cohort 5 Day 1 – VA 73 letters 1 Month 4 Months 11 2.5x10 GC/eye Case A: 13 Injections in Year Prior with 0 Rescue Injections after Week 1 – OCT response 2 Months 5 Months – VA 75 (+2 letters) RGX-314 Age: 87 Total prior anti-VEGF hx: 40 Last year anti-VEGF: 13 Rescue Inj in Study: 0 RGX-314 1 Week post-RGX-314 3 Months Week 26 – xx letters 16
Cohort 5 Day 1 – VA 46 letters (20/125) 1 Month 4 Months 11 2.5x10 GC/eye Case B: 8 Injections in Year Prior with 0 Rescue Injections after Week 1 – OCT response 2 Months 5 Months RGX-314 Age: 86 Total prior anti-VEGF hx: 20 Last year anti-VEGF: 8 Rescue Inj in Study: 0 RGX-314 Week 1 post-RGX-314 3 Months 6 Months – VA 48 (+2 letters) 17Cohort 5 Day 1 – VA 46 letters (20/125) 1 Month 4 Months 11 2.5x10 GC/eye Case B: 8 Injections in Year Prior with 0 Rescue Injections after Week 1 – OCT response 2 Months 5 Months RGX-314 Age: 86 Total prior anti-VEGF hx: 20 Last year anti-VEGF: 8 Rescue Inj in Study: 0 RGX-314 Week 1 post-RGX-314 3 Months 6 Months – VA 48 (+2 letters) 17
RGX-314 Program Next Steps wAMD moving Diabetic to Phase IIb Retinopathy Study by the IND by end of the year end of the year RGX-314 Gene Therapy Expanding to evaluate SCS delivery using Clearside’s proprietary, in-office SCS Microinjector 18RGX-314 Program Next Steps wAMD moving Diabetic to Phase IIb Retinopathy Study by the IND by end of the year end of the year RGX-314 Gene Therapy Expanding to evaluate SCS delivery using Clearside’s proprietary, in-office SCS Microinjector 18
Key takeaways from the RGX-314 Phase I/IIa wAMD Clinical Trial § RGX-314 Phase I/IIa wAMD study has fully enrolled 42 patients in 5 dose cohorts § Patients enrolled were severe wAMD requiring frequent anti-VEGF injections § Subretinal RGX-314 was well tolerated in 5 dose Cohorts § Dose dependent increase in ocular protein observed across cohorts § Cohort 3: subjects continue to demonstrate good vision and anatomic outcomes over 1.5 years § Cohort 4: reduction in injection burden with stable to improved anatomic and visual outcomes § Cohort 5: highest clinical response observed with 75% of subjects injection-free with stable to improved anatomic and visual outcomes* § RGX-314 moving into Phase IIb trial for wet AMD, Phase II diabetic retinopathy trial, TM and in-office suprachoroidal delivery via SCS Microinjector , * Data cut October 9 2019 19Key takeaways from the RGX-314 Phase I/IIa wAMD Clinical Trial § RGX-314 Phase I/IIa wAMD study has fully enrolled 42 patients in 5 dose cohorts § Patients enrolled were severe wAMD requiring frequent anti-VEGF injections § Subretinal RGX-314 was well tolerated in 5 dose Cohorts § Dose dependent increase in ocular protein observed across cohorts § Cohort 3: subjects continue to demonstrate good vision and anatomic outcomes over 1.5 years § Cohort 4: reduction in injection burden with stable to improved anatomic and visual outcomes § Cohort 5: highest clinical response observed with 75% of subjects injection-free with stable to improved anatomic and visual outcomes* § RGX-314 moving into Phase IIb trial for wet AMD, Phase II diabetic retinopathy trial, TM and in-office suprachoroidal delivery via SCS Microinjector , * Data cut October 9 2019 19
Acknowledgments § Robert Avery, MD (Santa Barbara, CA) § David Brown, MD (Houston, TX) University of § Peter Campochiaro, MD (Baltimore, MD) Ophthalmic Pennsylvania, Philadelphia, PA Consultants § Jorge Calzada, MD (Memphis. TN) of Boston, Boston, MA § Jeff Heier, MD (Boston, MA) Wills Eye Sierra Eye § Allen Ho, MD (Philadelphia, PA) Institute, Associates, Philadelphia, PA Reno, NV Johns Hopkins § Arshad Khanani, MD (Reno, NV) Charles Retina, University, Memphis, TN California Retina Baltimore, MD § Albert Maguire, MD (Philadelphia, PA) Consultants, Santa Barbara, CA § Dante Pieramici, MD (Santa Barbara, CA) Houston Retina Consultants, § Charles Wykoff, MD PhD (Houston, CA) Houston, TX § Szilard Kiss, MD (New York, NY) § Sherri Van Everen, PharmD (REGENXBIO) § Darin Curtiss, PharmD (REGENXBIO) § Stephen Pakola, MD (REGENXBIO) 20Acknowledgments § Robert Avery, MD (Santa Barbara, CA) § David Brown, MD (Houston, TX) University of § Peter Campochiaro, MD (Baltimore, MD) Ophthalmic Pennsylvania, Philadelphia, PA Consultants § Jorge Calzada, MD (Memphis. TN) of Boston, Boston, MA § Jeff Heier, MD (Boston, MA) Wills Eye Sierra Eye § Allen Ho, MD (Philadelphia, PA) Institute, Associates, Philadelphia, PA Reno, NV Johns Hopkins § Arshad Khanani, MD (Reno, NV) Charles Retina, University, Memphis, TN California Retina Baltimore, MD § Albert Maguire, MD (Philadelphia, PA) Consultants, Santa Barbara, CA § Dante Pieramici, MD (Santa Barbara, CA) Houston Retina Consultants, § Charles Wykoff, MD PhD (Houston, CA) Houston, TX § Szilard Kiss, MD (New York, NY) § Sherri Van Everen, PharmD (REGENXBIO) § Darin Curtiss, PharmD (REGENXBIO) § Stephen Pakola, MD (REGENXBIO) 20
Supplemental InformationSupplemental Information
Mean Change in Annualized Injection Rate Pre and Post RGX-314: >80% Reduction in Cohort 5 Comparison of injection rate PRIOR and POST RGX-314 12 10.5 10.5 11 10.2 9.9 9.9 9.6 10 9.0 9 7.8 8 6.8 7 6 4.4 5 4 2.7 2.6 3 1.6 2 1 0 Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 9 10 10 11 11 3 x 10 GC/eye 1 x 10 GC/eye 6 x 10 GC/eye 1.6 x 10 GC/eye 2.5 x 10 GC/eye n=6 n=6 n=6 n=12 n=12 RGX–314 Dose Mean PRIOR Annual Rate (12 m IVTs) Mean POST RGX-314 Annual Rate (6 m) Mean POST RGX-314 Annual Rate (18 m) *Prior annual rate is (Total # of prior IVTs)/(minimum(366 days, Duration between first ever IVT and Day 1)/365.25). Post RGX-314 annual rate is (Total # of IVTs on Study)/(Duration on Study/365.25) where on Study is from RGX-314 administration through 18 months for C1-C3 and up to 6 months for C4 –C5. 22 Annualized injections*Mean Change in Annualized Injection Rate Pre and Post RGX-314: >80% Reduction in Cohort 5 Comparison of injection rate PRIOR and POST RGX-314 12 10.5 10.5 11 10.2 9.9 9.9 9.6 10 9.0 9 7.8 8 6.8 7 6 4.4 5 4 2.7 2.6 3 1.6 2 1 0 Cohort 1 Cohort 2 Cohort 3 Cohort 4 Cohort 5 9 10 10 11 11 3 x 10 GC/eye 1 x 10 GC/eye 6 x 10 GC/eye 1.6 x 10 GC/eye 2.5 x 10 GC/eye n=6 n=6 n=6 n=12 n=12 RGX–314 Dose Mean PRIOR Annual Rate (12 m IVTs) Mean POST RGX-314 Annual Rate (6 m) Mean POST RGX-314 Annual Rate (18 m) *Prior annual rate is (Total # of prior IVTs)/(minimum(366 days, Duration between first ever IVT and Day 1)/365.25). Post RGX-314 annual rate is (Total # of IVTs on Study)/(Duration on Study/365.25) where on Study is from RGX-314 administration through 18 months for C1-C3 and up to 6 months for C4 –C5. 22 Annualized injections*
RGX-314: Standardized Automated Subretinal Delivery Procedure Step 1 – Vitrectomy Step 2 – Subretinal Injection MedOne MicroDose Syringe Performed Under Local Anaesthesia in the OR § Standard small gauge vitrectomy to perform § Inject 250μl to create subretinal bleb § Can create another bleb area a core vitrectomy in a healthy area of retina if needed § Automated delivery with a MedOne subretinal § Target superior to the superotemporal § Keep margin of the bleb at least cannula attached to the vitrectomy machine arcade vessel or outside the arcades 2DA away from the fovea Air fluid exchange and then Sub-conj steroid injection at the end of procedure (No systemic steroids used in protocol) No positioning mandated and patient is discharged home with follow-up the next day 23RGX-314: Standardized Automated Subretinal Delivery Procedure Step 1 – Vitrectomy Step 2 – Subretinal Injection MedOne MicroDose Syringe Performed Under Local Anaesthesia in the OR § Standard small gauge vitrectomy to perform § Inject 250μl to create subretinal bleb § Can create another bleb area a core vitrectomy in a healthy area of retina if needed § Automated delivery with a MedOne subretinal § Target superior to the superotemporal § Keep margin of the bleb at least cannula attached to the vitrectomy machine arcade vessel or outside the arcades 2DA away from the fovea Air fluid exchange and then Sub-conj steroid injection at the end of procedure (No systemic steroids used in protocol) No positioning mandated and patient is discharged home with follow-up the next day 23
Cohort 5 Day 1 – VA 73 letters 1 Month 4 Months Day 1 – VA 73 letters Week 6 – VA 76 letters Week 18 – VA 72 letters 11 2.5x10 GC/eye Case C: 12 Injections in Year Prior with 0 Rescue Injections Week 1 – OCT response 2 Months 5 Months Week 1 – VA 72 letters Week 10 – VA 74 letters Week 22 – VA 76 letters after RGX-314 Age: 80 Total prior anti-VEGF hx: 20 Last year anti-VEGF: 12 Rescue Inj in Study: 0 RGX-314 1 Week Post RGX-314 3 Months Week 3 – VA 67 letters Week 14 – VA 75 letters 6 Months– VA 74 (+1 letter) 24Cohort 5 Day 1 – VA 73 letters 1 Month 4 Months Day 1 – VA 73 letters Week 6 – VA 76 letters Week 18 – VA 72 letters 11 2.5x10 GC/eye Case C: 12 Injections in Year Prior with 0 Rescue Injections Week 1 – OCT response 2 Months 5 Months Week 1 – VA 72 letters Week 10 – VA 74 letters Week 22 – VA 76 letters after RGX-314 Age: 80 Total prior anti-VEGF hx: 20 Last year anti-VEGF: 12 Rescue Inj in Study: 0 RGX-314 1 Week Post RGX-314 3 Months Week 3 – VA 67 letters Week 14 – VA 75 letters 6 Months– VA 74 (+1 letter) 24
Exhibit 99.2
REGENXBIO Announces Additional Positive Interim Phase I/IIa Trial Update for RGX-314 for the Treatment of Wet AMD at the American Academy of Ophthalmology 2019 Annual Meeting
| RGX-314 continues to be well-tolerated |
| 75% of subjects (9/12) in Cohort 5 remain free of anti-VEGF injections, with mean improvement in vision and retinal thickness |
| Durable effects on vision and retinal thickness demonstrated over 1.5 years in Cohort 3; 50% of subjects (3/6) remain free of anti-VEGF injections at 1.5 years after RGX-314 administration |
| Company on track to initiate a Phase IIb trial for wet AMD in late 2019 |
ROCKVILLE, Md., October 11, 2019 (PRNewswire) REGENXBIO Inc. (Nasdaq: RGNX), a leading clinical-stage biotechnology company seeking to improve lives through the curative potential of gene therapy based on its proprietary NAV® Technology Platform, today announced interim data from the ongoing Phase I/IIa trial of RGX-314 for the treatment of wet age-related macular degeneration (wet AMD). The results were presented by Jeffrey S. Heier, M.D., Co-President and Director of Retina Research at Ophthalmic Consultants of Boston and primary investigator for the trial, in a podium presentation at the Retina Subspecialty Day program of the American Academy of Ophthalmology (AAO) 2019 Annual Meeting in San Francisco, CA.
Todays interim update from the RGX-314 Phase I/IIa dose escalation study further demonstrates the significant reduction in anti-VEGF treatment burden and encouraging improvement or maintenance of effects on vision and retinal thickness in the three higher dose cohorts, said Dr. Heier. These effects are especially important as subjects in this study had been previously treated with chronic and burdensome anti-VEGF injections over several years, highlighting the severity of their disease. Todays results further support the potential of RGX-314 gene therapy to have meaningful and durable effects in patients following a one-time intervention.
Detailed study findings, including those presented by Dr. Heier at AAO 2019, are available under the Presentations & Publications page in the Media section of the companys website located at www.regenxbio.com.
Study Design and Safety
In the Phase I/IIa trial of RGX-314, 42 subjects with severe wet AMD requiring frequent anti-vascular endothelial growth factor (anti-VEGF) injections have been treated across five dose cohorts, with doses ranging from 3x109 GC/eye to 2.5x1011 GC/eye. Subjects were enrolled into all dose cohorts independent of their neutralizing antibody titers to AAV and did not receive prophylactic immune suppressive oral corticosteroid therapy before or after administration of RGX-314.
Subjects in the study are being assessed each month, with long-term follow-up continuing for 24 months. Assessments for the study include reduction in anti-VEGF intravitreal injections, change in vision measured by Best Corrected Visual Acuity (BCVA), change in central retinal thickness (CRT) measured by spectral domain optical coherence tomography (SD-OCT), and protein expression levels as measured from aqueous samples by electrochemiluminescence immunoassay (ECL).
As of October 9, 2019, RGX-314 continues to be well-tolerated across all cohorts, with no drug-related serious adverse events (SAEs) reported. Fifteen SAEs that were not related to RGX-314, including two ocular procedure-related SAEs, were reported in 9 subjects. There have been no reports of clinically-determined immune responses, drug-related ocular inflammation, or post-surgical inflammation beyond what is expected following routine vitrectomy.
Summary of Data for Cohorts 4 and 5
Todays interim update includes data as of October 9, 2019 for Cohorts 4 and 5, which enrolled 12 subjects each, at doses of 1.6x1011 GC/eye and 2.5x1011 GC/eye, respectively. All 12 subjects in Cohort 4 reached 6 months of follow-up, and subjects in Cohort 5 reached 5 or 6 months of follow-up as of the data cut-off, with the exception of one subject who discontinued from the study at 4 months1.
Subjects in Cohort 5 on average had a meaningful reduction in anti-VEGF treatment burden, with 9 out of 12 (75%) subjects remaining anti-VEGF injection-free as of the data cut-off. Across the 12 subjects, there was a mean of 0.8 injections through 5 or 6 months following administration of RGX-314, a reduction of over 80% from the mean annualized injection rate during the 12 months prior to administration of RGX-314. Importantly, subjects in Cohort 5 improved visual acuity and decreased retinal thickness, with a mean BCVA change of +4 letters and a mean change in CRT of -68µm after one-time administration of RGX-314. The 9 subjects who were anti-VEGF injection-free after administration of RGX-314 showed a mean BCVA improvement of +5 letters, and a mean improvement in CRT of -80µm.
Subjects in Cohort 4 on average also had a meaningful reduction in anti-VEGF treatment burden, with 5 out of 12 (42%) subjects receiving no anti-VEGF injections in 6 months following administration of RGX-314. Across the 12 subjects in the cohort, there was a mean of 2.2 injections over 6 months following administration of RGX-314, a reduction of over 50% from the mean annualized injection rate during the 12 months prior to administration of RGX-314. Subjects in Cohort 4 maintained visual acuity and decreased retinal thickness, with a mean BCVA change of +2 letters, and a mean change in CRT of -42 µm. The 5 subjects who did not receive anti-VEGF injections after administration of RGX-314 showed a mean BCVA change of +2 letters, and a mean improvement in CRT of -61µm.
Intraocular RGX-314 protein expression levels increased in a dose-dependent manner when measured at approximately one month after administration of RGX-314; the mean protein expression level in Cohort 4 was 249.4 ng/ml, and the mean protein expression level in Cohort 5 was 376.0 ng/ml.
Summary of Long-Term Data for Cohort 3
Subjects in Cohort 3 continue to demonstrate long-term reductions in anti-VEGF treatment burden over 1.5 years. Importantly, 3 out of 6 subjects (50%) continue to remain anti-VEGF injection-free at 1.5 years. The 6 subjects across the cohort demonstrated a mean annualized rate of 2.6 anti-VEGF injections following administration of RGX-314, a reduction of over 50% from the mean annualized injection rate during the 12 months prior administration of RGX-314.
Positive long-term efficacy signals were sustained through 1.5 years in Cohort 3, including a mean BCVA improvement of +9 letters and a mean change in CRT of -40 µm. Notably, in the three patients who have remained anti-VEGF injection free at 1.5 years, the increase from baseline BCVA was +11 letters and the mean change in CRT was -21 µm.
Frequent anti-VEGF injections have been shown to reduce the risk of blindness in subjects with wet AMD, but real-world evidence shows that people lose vision over time due to non-compliance. The notable reduction in anti-VEGF treatments seen after a single administration of the highest dose of RGX-314 in Cohort 5 is particularly encouraging, given the severity of the disease and the high treatment burden for these enrolled subjects prior to administration of RGX-314, said Steve Pakola, M.D., Chief Medical Officer of REGENXBIO. We look forward to our anticipated start of the Phase IIb trial in subjects with wet AMD by the end of this year.
About RGX-314
RGX-314 is being developed as a potential one-time treatment for wet age-related macular degeneration (wet AMD), diabetic retinopathy (DR), and other additional chronic retinal conditions treated with anti-VEGF. RGX-314 consists of the NAV AAV8 vector encoding an antibody fragment which inhibits VEGF, modifying the pathway for formation of new leaky blood vessels which lead to retinal fluid accumulation and vision loss.
About the Phase I/IIa Clinical Trial of RGX-314
RGX-314 is being evaluated in a Phase I/IIa, multi-center, open-label, multiple-cohort, dose-escalation study in adult subjects with wet AMD in the United States. The study includes subjects previously treated for wet AMD who are responsive to anti-VEGF therapy. The study is designed to evaluate five escalating doses of RGX-314, with six subjects in the first three dose cohorts and 12 subjects in the fourth and fifth dose cohorts. Subjects were enrolled into all dose cohorts independent of their neutralizing antibody titers to AAV and did not receive prophylactic immune suppressive oral corticosteroid therapy before or after administration of RGX-314. Secondary endpoints include visual acuity, retinal thickness on spectral domain optical coherence tomography (SD-OCT), ocular RGX-314 protein expression, and the need for additional anti-VEGF therapy. Following completion of the primary study period, subjects enter a follow-up period and will continue to be assessed until week 106 for long-term safety and durability of effect.
About Wet AMD
Wet AMD is characterized by loss of vision due to new, leaky blood vessel formation in the retina. Wet AMD is a significant cause of vision loss in the United States, Europe and Japan, with up to 2 million people living with wet AMD in these geographies alone. Current anti-VEGF therapies have significantly changed the landscape for treatment of wet AMD, becoming the standard of care due to their ability to prevent progression of vision loss in the majority of patients. These therapies, however, require life-long intraocular injections, typically repeated every four to 12 weeks in frequency, to maintain efficacy. Due to the burden of treatment, patients often experience a decline in vision with reduced frequency of treatment over time.
About REGENXBIO Inc.
REGENXBIO is a leading clinical-stage biotechnology company seeking to improve lives through the curative potential of gene therapy. REGENXBIOs NAV Technology Platform, a proprietary adeno-associated virus (AAV) gene delivery platform, consists of exclusive rights to more than 100 novel AAV vectors, including AAV7, AAV8, AAV9 and AAVrh10. REGENXBIO and its third-party NAV Technology Platform Licensees are applying the NAV Technology Platform in the development of a broad pipeline of candidates in multiple therapeutic areas.
Forward-Looking Statements
This press release includes forward-looking statements, within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended. These statements express a belief, expectation or intention and are generally accompanied by words that convey projected future events or outcomes such as believe, may, will, estimate, continue, anticipate, design, intend, expect, could, plan, potential, predict, seek, should, would or by variations of such words or by similar expressions. The forward-looking statements include statements relating to, among other things, REGENXBIOs future operations and clinical trials. REGENXBIO has based these forward-looking statements on its current expectations and assumptions and analyses made by REGENXBIO in light of its experience and its perception of historical trends, current conditions and expected future developments, as well as other factors REGENXBIO believes are appropriate under the circumstances. However, whether actual results and developments will conform with REGENXBIOs expectations and predictions is subject to a number of risks and uncertainties, including the timing of enrollment, commencement and completion and the success of clinical trials conducted by REGENXBIO, its licensees and its partners, the timing of commencement and completion and the success of preclinical studies conducted by REGENXBIO and its development partners, the timely development and launch of new products, the ability to obtain and maintain regulatory approval of product candidates, the ability to obtain and maintain intellectual property protection for product candidates and technology, trends and challenges in the business and markets in which REGENXBIO
operates, the size and growth of potential markets for product candidates and the ability to serve those markets, the rate and degree of acceptance of product candidates, and other factors, many of which are beyond the control of REGENXBIO. Refer to the Risk Factors and Managements Discussion and Analysis of Financial Condition and Results of Operations sections of REGENXBIOs Annual Report on Form 10-K for the year ended December 31, 2018, and comparable risk factors sections of REGENXBIOs Quarterly Reports on Form 10-Q and other filings, which have been filed with the U.S. Securities and Exchange Commission (SEC) and are available on the SECs website at www.sec.gov. All of the forward-looking statements made in this press release are expressly qualified by the cautionary statements contained or referred to herein. The actual results or developments anticipated may not be realized or, even if substantially realized, they may not have the expected consequences to or effects on REGENXBIO or its businesses or operations. Such statements are not guarantees of future performance and actual results or developments may differ materially from those projected in the forward-looking statements. Readers are cautioned not to rely too heavily on the forward-looking statements contained in this press release. These forward-looking statements speak only as of the date of this press release. REGENXBIO does not undertake any obligation, and specifically declines any obligation, to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise.
1 This subject died 4.5 months after the administration of RGX-314 as a result of the subjects underlying disease, which was assessed to be unrelated to RGX-314. At the time of the death, the subject was free of anti-VEGF injections.
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Contacts:
Tricia Truehart
Investor Relations and Corporate Communications
347-926-7709
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