Table of Contents

• What is Budoprutug?
• How Budoprutug Works
• Medical Conditions Treated with Budoprutug
• How Budoprutug is Administered
• Current Clinical Trials
• Safety Information
• Effectiveness of Budoprutug

What is Budoprutug?

Budoprutug (also known as TNT119) is a humanized, immunoglobulin G1 monoclonal antibody that selectively binds to a protein called CD19 found on the surface of certain immune cells. This medication is currently being investigated in clinical trials for several autoimmune conditions^[1][2].

A monoclonal antibody is a laboratory-made protein that mimics the immune system’s ability to fight off harmful pathogens. In the case of Budoprutug, it is designed to target specific cells in the immune system that may be contributing to autoimmune diseases.

How Budoprutug Works

Budoprutug works by selectively binding to CD19, a protein found on B cells. B cells are a type of white blood cell that plays a crucial role in the immune system, particularly in producing antibodies to fight infections. However, in autoimmune conditions, these B cells can sometimes malfunction and produce antibodies that attack the body’s own tissues^[3].

When Budoprutug binds to CD19 on B cells, it is designed to deplete these cells through a process called antibody-dependent cellular cytotoxicity (ADCC). This is a mechanism in which antibodies flag cells for destruction by the immune system. By reducing the number of B cells, Budoprutug aims to decrease the production of harmful antibodies that cause autoimmune conditions^[1].

Medical Conditions Treated with Budoprutug

Based on current clinical trials, Budoprutug is being investigated for several autoimmune conditions:

Primary Membranous Nephropathy (PMN)

Primary Membranous Nephropathy is a kidney disease characterized by thickening of the glomerular basement membrane (a part of the kidney’s filtering system) and the presence of immune deposits. This condition often leads to significant protein loss in the urine (proteinuria) and can progress to kidney failure if not treated^[1].

In PMN, many patients have antibodies against a protein called PLA2R (phospholipase A2 receptor) that is found in the kidneys. Budoprutug aims to reduce these antibodies by targeting the B cells that produce them^[1].

Systemic Lupus Erythematosus (SLE)

Systemic Lupus Erythematosus, commonly known as lupus, is a chronic autoimmune disease that can affect multiple organs and systems in the body. In SLE, the immune system produces antibodies that attack healthy tissues, leading to inflammation and damage. Common symptoms include joint pain, skin rashes, fatigue, and kidney problems^[2][4].

Budoprutug is being studied in patients with active SLE who have not responded adequately to standard therapy. The goal is to reduce disease activity by decreasing harmful antibody production^[2].

Immune Thrombocytopenia (ITP)

Immune Thrombocytopenia is a blood disorder characterized by a low platelet count. Platelets are blood cells that help with clotting, and when their numbers are reduced, patients can experience easy bruising, bleeding gums, and potentially dangerous internal bleeding. In ITP, the immune system produces antibodies that destroy platelets^[3].

Budoprutug is being investigated in patients with ITP who have not responded to at least one previous treatment and have a platelet count below 30,000/μL (normal range is typically 150,000-450,000/μL)^[3].

How Budoprutug is Administered

Budoprutug is administered in two main ways, depending on the clinical trial and condition being treated:

Intravenous (IV) Administration

Most current trials use intravenous administration, where the medication is delivered directly into the bloodstream through a vein. The dosing schedule varies by condition:

• For Primary Membranous Nephropathy: Patients receive a single IV dose on Day 1, Day 15, Day 169, and Day 183^[1].
• For Systemic Lupus Erythematosus: In one trial, patients receive a single IV dose on Day 1^[2].
• For Immune Thrombocytopenia: Patients receive a single IV dose on Day 1 and on Day 15^[3].

Subcutaneous (SC) Administration

Budoprutug is also being tested in a subcutaneous form, where the medication is injected under the skin. This method is being evaluated in healthy volunteers to compare its effectiveness with IV administration^[5].

Current Clinical Trials

Budoprutug is currently being evaluated in several clinical trials:

Phase 2 Trial in Primary Membranous Nephropathy

This open-label study is evaluating the safety, pharmacodynamics, and preliminary efficacy of three intravenous dose regimens of Budoprutug in adults with PMN who are anti-PLA2R antibody positive and have persistent proteinuria despite optimized treatment with renin-angiotensin-aldosterone system (RAAS) inhibitors. Approximately 45 subjects will be enrolled across three dose cohorts^[1].

Phase 1b/2a Trials in Systemic Lupus Erythematosus

Multiple studies are evaluating Budoprutug in patients with SLE, including a Phase 1b open-label, single ascending dose study and a Phase 1b/2a open-label dose escalating study. These trials aim to assess safety, tolerability, pharmacokinetics, and pharmacodynamics in adults with active SLE who have had an inadequate response to standard therapy^[2][4].

Phase 1b/2a Study in Immune Thrombocytopenia

This open-label, sequential-cohort, dose escalation and expansion study is evaluating the safety, tolerability, and preliminary clinical effectiveness of Budoprutug in subjects with ITP. The study involves three dose-ascending cohorts followed by an expansion cohort at the selected dose level(s)^[3].

Phase 1 Study in Healthy Volunteers

A randomized, double-blind, placebo-controlled, single-ascending-dose study is evaluating the safety, tolerability, pharmacokinetics, and pharmacodynamics of subcutaneous and intravenous injections of Budoprutug in normal healthy volunteers^[5].

Safety Information

As Budoprutug is still in clinical trials, comprehensive safety information is not yet available. However, all current trials are monitoring for Treatment-Emergent Adverse Events (TEAEs), which are unwanted medical occurrences that emerge during treatment^[1][2][3].

Some specific safety aspects being monitored include:

• Infusion-related reactions: Reactions that can occur during or shortly after receiving an IV infusion^[5].
• Injection site reactions: Local reactions at the site where subcutaneous injections are given^[5].
• Anti-drug antibodies (ADAs): Antibodies that the body might develop against Budoprutug, which could potentially reduce its effectiveness^[2][3].
• Changes in vital signs, laboratory values, and heart rhythm parameters^[2].

Since Budoprutug depletes B cells, patients may be at increased risk for infections. Long-term follow-up is planned in the trials to monitor for B-cell recovery^[1].

Effectiveness of Budoprutug

As Budoprutug is still in clinical trials, definitive information about its effectiveness is not yet available. The current trials are designed to evaluate various effectiveness measures specific to each condition:

For Primary Membranous Nephropathy:

• Change in anti-PLA2R antibody levels over time^[1]
• Complete or partial remission rates at Week 48^[1]
• Change in proteinuria over time, measured via urine protein-creatinine ratio (UPCR)^[1]
• Change in kidney function, measured by estimated glomerular filtration rate (eGFR)^[1]

For Systemic Lupus Erythematosus:

• Change in disease activity scores (BILAG-2004, SLEDAI-2K)^[2]
• Proportion of participants achieving SRI-4 response (a standard measure of improvement in lupus)^[2]
• Change in urine protein creatinine ratio for patients with kidney involvement^[2][4]
• Change in fatigue scores^[2][4]

For Immune Thrombocytopenia:

• Change in platelet count over time^[3]
• Proportion of participants with stable, partial, or complete platelet response^[3]
• Rate of steroid discontinuation among baseline steroid users^[3]

In all studies, researchers are also monitoring changes in B-cell counts to confirm that Budoprutug is working as expected to reduce these cells^[1][2][3].