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| ID | Type | Description | Link |
|---|---|---|---|
| 2025-521304-21-00 | EU Trial (CTIS) Number |
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| Name | Class |
|---|---|
| Evidenze Health S.r.l. | UNKNOWN |
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Purpose:
The purpose of the trial is to assess the safety profile of the study treatment and to evaluate its efficacy in terms of improvement in key diabetes management parameters, including insulin requirements and β-cell function, and immunological parameters, in patients with T1D at recent onset / diagnosis and with residual β-cell function.
Rationale:
The study treatment consists of an autologous CD34+-enriched population that contains HSPCs transduced ex vivo with a third generation VSV-G pseudotyped LVV encoding the hPD-L1 cDNA. The drug product (DP) is composed of genetically modified autologous CD34+ HSPCs formulated in cryopreservation medium, transferred to the final container closure, and cryopreserved.
The mechanism of action is based on the ability of the PD-L1-expressing HSPCs to exert immunoregulatory properties activity and ablate suppress the autoimmune reaction induced by auto-reactive T lymphocytes, by homing to the site of inflammation, i.e., the pancreas.
PD-L1 is the ligand for the PD-1 receptor, expressed primarily on activated T cells. Crosslinking of PD-L1 and PD-1 inhibits T cell activation and favours their exhaustion/apoptosis and in mice deficient in PD-L1/PD-1 develop accelerated diabetes. HSPCs have been extensively used as an effective therapeutic approach in haematological malignancies and have demonstrated to be safe in human subjects.
Immunologically based clinical trials performed thus far have failed to cure T1D, in part because these approaches were nonspecific. Because the disease is driven by autoreactive CD4+ T cells, which destroy β cells, transplantation of hematopoietic stem and progenitor cells (HSPCs) has been recently offered as a therapy for T1D. Our transcriptomic profiling of HSPCs revealed that these cells are deficient in PD-L1, an important immune checkpoint, in the T1D non-obese diabetic (NOD) mouse model. Notably, the immunoregulatory molecule PD-L1 plays a determinant role in controlling/inhibiting activated T cells and thus maintains immune tolerance. Furthermore, our genome-wide and bioinformatic analysis revealed the existence of a network of microRNAs (miRNAs) controlling PD-L1 expression, and silencing one of key altered miRNAs restored PD-L1 expression in HSPCs. The Investigators therefore sought to determine whether restoration of this defect would cure T1D as an alternative to immunosuppression. Genetically engineered or pharmacologically modulated HSPCs overexpressing PD-L1 inhibited the autoimmune response in vitro, reverted diabetes in newly hyperglycemic NOD mice in vivo, and homed to the pancreas of hyperglycemic NOD mice. The PD-L1 expression defect was confirmed in human HSPCs in T1D patients as well, and pharmacologically modulated human HSPCs also inhibited the autoimmune response in vitro.
The Investigators therefore hypothesized that targeting a specific immune checkpoint defect in HSPCs thus may contribute to establishing a cure for T1D or slow the progression of β-cell destruction.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Treatment | Experimental | Evaluation of the safety and efficacy of autologous CD34+ HSPCs transduced ex vivo with LVV encoding hPD-L1 cDNA in patients with T1D at recent onset and with residual β-cell function |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Autologous CD34+ cell enriched population containing HSPCs transduced ex vivo using a LVV encoding the hPD-L1 DNA | Genetic | The intervention is intended for newly diagnosed T1D patients with residual beta-cell function, who can receive the Drug Product (DP) within 180 days from the first insulin administration. Mobilized autologous HSPCs, collected by leukapheresis, are ex vivo transduced with a LVV encoding for hPD-L1 and formulated in a cryopreservation medium containing DMSO (DP). After release, the DP is thawed and administered to the patient at a dose ranging between 5 and 20 million of cells per kilogram of body weight. The intervention plans for a single DP injection. |
| Measure | Description | Time Frame |
|---|---|---|
| Number of Participants with Treatment-Related Adverse Events as Assessed by CTCAE v5.0 | For each participant, number, description and grading of any adverse event, including expected and unexpected adverse events, meeting or not meeting the definition of "serious". | Up to 24 months |
| Measure | Description | Time Frame |
|---|---|---|
| Vector Copy Number | Longitudinal analysis of vector copy number (VCN) in peripheral blood samples to assess frequency and persistence of infused cells and their progenies | Up to 24 months |
| Safety and efficacy |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Paolo Rizzardi, MD | Contact | +39 335 1935042 | paolo.rizzardi@altheiascience.com |
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Azienda Ospedale-Università Padova | Padova | Italia | Italy |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 29141886 | Background | Ben Nasr M, Tezza S, D'Addio F, Mameli C, Usuelli V, Maestroni A, Corradi D, Belletti S, Albarello L, Becchi G, Fadini GP, Schuetz C, Markmann J, Wasserfall C, Zon L, Zuccotti GV, Fiorina P. PD-L1 genetic overexpression or pharmacological restoration in hematopoietic stem and progenitor cells reverses autoimmune diabetes. Sci Transl Med. 2017 Nov 15;9(416):eaam7543. doi: 10.1126/scitranslmed.aam7543. | |
| 42023429 |
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All IPD that underlie results in a publication.
June 2029 - June 2030
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Changes over time of the 3-hour area under curve (AUC) and ΔAUC normalised by baseline glucose blood levels of C-peptide response to a mixed meal tolerance test (MMTT) over 12 and 24 months
| on month 12 and 24 month |
| Safety and efficacy | Changes over time of glucose metrics from continuous glucose monitoring (CGM) over 12 and 24 months | on month 12 and 24 month |
| Safety and efficacy | Exogenous insulin requirement defined as a daily average in units per kilogram per day (U/kg/day) during the previous 14 days | Up to 24 months |
| Pharmacodynamic | Longitudinal analysis of vector copy number (VCN) in peripheral blood samples to assess frequency and persistence of infused cells and their progenies | from Treatment to end of study |
| Safety and efficacy | Changes over time of HbA1c levels over 12 and 24 months | on month 12 and 24 month |
| Safety and efficacy | Number of self-reported episodes of severe (CTCAE version 5.0 grade 3) hypoglycaemia | Up to 24 months |
| Derived |
| Lin TM, Chang HF, Lin TC, Lin CH, Sun YL, Lin CS. Gene Therapy and Gene Editing in Type 1 Diabetes: CRISPR-Based beta-Cell Replacement and Treg Immune Modulation Approaches. Diabetes Obes Metab. 2026 Jul;28(7):5476-5491. doi: 10.1111/dom.70800. Epub 2026 Apr 23. |
| ID | Term |
|---|---|
| D003922 | Diabetes Mellitus, Type 1 |
| ID | Term |
|---|---|
| D003920 | Diabetes Mellitus |
| D044882 | Glucose Metabolism Disorders |
| D008659 | Metabolic Diseases |
| D009750 | Nutritional and Metabolic Diseases |
| D004700 | Endocrine System Diseases |
| D001327 | Autoimmune Diseases |
| D007154 | Immune System Diseases |
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