Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT05171972 |
| Other study ID # |
HS-21-00540 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
January 29, 2022 |
| Est. completion date |
December 2023 |
Study information
| Verified date |
February 2022 |
| Source |
University of Southern California |
| Contact |
Eve Kelland, Ph.D. |
| Phone |
1-800-872-2273 |
| Email |
msimmlab[@]usc.edu |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
In this study the investigators wish to test the hypothesis that the repertoire of solutes
secreted by leukocytes isolated from patients with relapsing-remitting forms of Multiple
Sclerosis (MS) following 6 months of treatment with Ofatumumab (Kesimpta®) will be less toxic
to mouse-derived oligodendrocyte lineage cells, grown in a dish, than solutes secreted by the
same leukocyte populations prior to treatment with Ofatumumab.
Description:
Background and Rationale:
The role of B-cells in multiple sclerosis (MS) pathogenesis is still not fully understood,
however studies have shown that: 1) intrathecal synthesis of immunoglobulin can be detected
in the cerebral spinal fluid of >90% of MS patients; 2) there are multiple clonally expanded
B-cell populations in chronic MS brain lesions; 3) ectopic lymphoid follicles containing
proliferating B-cells have been identified within the meninges of secondary progressive MS
patients; and 4) anti-B cell depleting therapies have been shown to have clinical benefit in
MS. In addition to these findings B-cells have been shown to:
- Secrete autoantibodies.
- Serve as antigen-presenting cells.
- Facilitate T-cell activation.
- Contribute to the micro-environment by local secretion of immune mediators such as
cytokines and chemokines.
It is important that investigators not only understand the clinical effects of B-cell
depletion, but also, critically, that investigators understand the ongoing mechanisms of
action following treatment with Ofatumumab. Specifically, how the remaining pathogenic
leukocyte populations, such as T-cells, monocytes, neutrophils and natural killer (NK) cells
are modulated indirectly by Ofatumumab such that they may be less pathogenic to the
myelinating oligodendrocyte population.
Ofatumumab is an anti-CD20 human monoclonal antibody that has demonstrated efficacy in
lowering relapse rates, magnetic resonance Imaging (MRI) activity and neurofilament light
(NF-L) levels, as well as significant reductions in confirmed disability worsening in
patients with relapsing forms MS.
The exact role(s) of B cells in MS pathogenesis are still unclear at present, as are the
events that lead to oligodendrocyte death and dysfunction. Oligodendrocytes are the
myelinating cells of the central nervous system (CNS), and demyelination and oligodendrocyte
death are critical events in the disease process of MS. At present no current approved MS
drug therapies are targeted to directly protecting against oligodendrocyte loss and
dysfunction or aimed at enhancing repair of the CNS. The proposed studies in this application
are novel in that effect(s) of Ofatumumab treatment in MS has not been previously studied in
oligodendrocyte or oligodendrocyte progenitor cell (OPC) populations. The outcomes from this
study could identify an additional mode of action of Ofatumumab treatment, with effects that
could indirectly benefit the CNS.
Specific Aims:
For this study, the investigators propose that the long-term mechanism of action associated
with the beneficial clinical outcomes of Ofatumumab therapy in MS is not only due to the
direct effect of removing circulating B-cells, but is also due to the subsequent alteration
in immune homeostasis with an accompanied reduction in cytotoxic secretory products from
leukocyte subsets including T cells, monocytes, neutrophils and NK cells. The study has two
specific aims:
For Specific Aim 1 (primary objective) the investigators will determine if solutes secreted
by T cells, monocytes, neutrophils or NK cells isolated from patients with
relapsing-remitting forms of MS following 6 months (M06) of treatment with Ofatumumab are
less toxic to mouse-derived oligodendrocytes and their progeny (OPC) than solutes secreted by
the same sub-populations of leukocytes collected prior to treatment (M00 drug naive). In this
aim, the primary outcome will be to assess measures of oligodendrocyte and OPC death, and
mitochondrial dysfunction.
For Specific Aim 2 (exploratory objective) the investigators will identify the factor(s)
responsible for inducing oligodendrocyte and OPC stress (comparing M06 supernatant samples to
M00) by firstly using a cytokine array approach followed, if needed, by a 2D-electrophoresis
LC-MS proteomic approach. The investigators will also perform additional analyses that will
explore altered microglial and astrocyte responses following treatment with solutes secreted
from leukocyte sub-populations at M00 and M06 in MS patients.
Study Population:
For this prospective longitudinal study the investigators will recruit 20 patients with
clinically definite relapsing-remitting MS (RR-MS) (as defined by the revised McDonald
criteria) who will be treated with Ofatumumab (Kesimpta). The investigators will also recruit
20 healthy control (HC) subjects. For these studies, RR-MS patients will serve as their own
internal control and the investigators will compare changes over time on Ofatumumab with
pre-treatment measures. In addition, RR-MS patient samples will be compared to healthy
control leukocyte sub-population supernatants. All RR-MS patients will be prescribed and
treated with Ofatumumab as part of their standard of care from their treating provider, with
the exception of the HC subjects who receive no treatment.
Procedures and Data Collection:
All RR-MS patients will be selected from those currently being seen by physicians at the
Multiple Sclerosis Comprehensive Care Center at University of Southern California (USC) Keck
School of Medicine or the LAC+USC Medical Center, Multiple Sclerosis Clinic, and for whom the
physician has already deemed Ofatumumab would be a logical treatment alternative. The
investigators will not be assessing eligibility for Ofatumumab treatment as criteria for
inclusion in this investigator-initiated trial (IIT). The investigators expect enroll
subjects over a 10-12 month recruitment phase. The investigators expect the last patient
sample to be collected 18 months following commencement of the study with final analysis of
data completed 27 months after study commencement. For the Ofatumumab cohort, the
investigators will collect ~80ml blood from enrolled patients at M00 (baseline, naive to
drug), and will collect a further 80ml of blood at M06 (months 5-6 prior to the 6-month
Ofatumumab injection). For the HC cohort, the investigators will collect ~80ml blood from
enrolled subjects at only one time point. Blood samples will be processed and leukocyte
sub-populations isolated for culture.
