An open-label, 56 day, single-center, exploratory, proof-of-concept study of the anti-viral effect of voclosporin (VCS) with an extended safety follow-up, up to 1 year. Study population are adult KTRs with positive SARS-CoV-2 infection with mild to moderate symptoms. At study entry, subjects are on standard therapy of dual immunosuppressive treatment of prednisone and tacrolimus (TAC), following randomization, 10 out of 20 subjects will remain on this therapy for the duration of the study, while the other 10 subjects will switch to VCS.
Calcineurin inhibitors (CNIs) are general immunosuppressive agents commonly used in the
setting of transplantation to prevent solid organ rejection. CNIs form the cornerstone of
immunosuppressive treatment in kidney transplant recipients (KTRs) including the 1st
generation CNI Cyclosporin-A (CsA) and the most commonly employed 2nd generation CNI
tacrolimus (TAC). It is of interest that CNIs, especially CsA, also exert anti-viral effects
in addition to immunosuppressive effects. Common side effects of CNIs are hypertension,
new-onset diabetes, renal insufficiency and neurotoxicity. Therefore, in the recent
decennium, efforts have been directed at developing a novel CNI, voclosporin (VCS), that has
improved pharmacodynamic (PD) and pharmacokinetic (PK) attributes with respect to calcineurin
inhibition as well as an improved safety profile to common side effects. VCS has been
extensively studied in KTRs demonstrating equivalent efficacy to TAC with respect to
prevention of rejection while showing a reduction in CNI-related toxicity. Most recently, VCS
as a component of multitargeted therapy demonstrated superior efficacy compared to standard
of care in lupus nephritis (LN) patients.
In 2011, a pivotal study from Leiden University Medical Center (LUMC) demonstrated in vitro
anti-viral effect of CsA on Severe Acute Respiratory Syndrome Coronavirus-1 (SARS-CoV-1).
Subsequently, VCS has been shown to have a more potent anti-viral effect on norovirus
compared to CsA. The anti-viral effects of CNIs have a different mechanism of inhibition in
each virus but mainly through inhibiting cyclophilins, an essential protein for viral
replication. The SARS-CoV-1 interacts with human cyclophilins, however the role of these
proteins in infection remains elusive. Different reports stablished interactions between nsp1
or nucleocapsid proteins with Cyps and hypothesize its influence in viral replication and
viral entry. Unlike VCS and CsA, TAC binds to FK binding proteins rather than cyclophilin A
(CypA). Given the current COVID-19 pandemic, the LUMC has very recently demonstrated
anti-viral effects of CNIs on SARS-CoV-2 infected cells in vitro: a 2-log reduction of
SARS-CoV-2 viral titers in Calu-3 2B4 bronchial cell cultures was observed when incubated
with ~3 μM VCS compared to 25μM CsA and 25μM TAC. In each experiment Remdesivir was taken as
positive control as it inhibits viral replication by >4log at 10 μM concentration. As such,
VCS becomes an attractive and potentially feasible CNI to use or switch to in COVID-19
infected KTRs who are already using CNIs as part of their chronic immunosuppressive therapy.
Because subjects will be randomized to either VCS or TAC as immunosuppressive agent during
COVID-19 infection, the burden of the study is two-fold: first, subjects will need to switch
to a novel CNI which intrinsically will harbour an uncertainty. However, from a clinical
point-of-view VCS is proven equivalent to TAC with respect to organ rejection and safety
monitoring of adequate drug levels is incorporated in the study. Secondly, subjects will need
to agree to self-assessments including monitoring of vital signs and collection of saliva
samples and a throat swab in the first 56 days. We believe that it is actually in the
interest of subjects to undergo this intensive monitoring because current standard practice
is for KTRs with mild symptoms to not be hospitalized and stay at home until recovery without
further monitoring. In addition, blood sampling (10 x 38.5 mL), urine sampling and additional
hospital visits will take place which are outside of normal clinical practice.
The potential advantage of the study to KTRs is that VCS may lead to a quicker reduction of
SARS-CoV-2 viral load and quicker relief of symptoms. Altogether, we believe the burden of
the study is minimal and outweighed by the potential benefit of the treatment on COVID-19
infection.
Drug: Voclosporin
Temporarily switching of tacrolimus maintenance immunosuppression to voclosporin maintenance immunosuppression with possible additional anti-viral activity
Other Name: Specimen collection for Nuclear acid testing (NAT) on SARS-CoV-2
Drug: Tacrolimus
Comparator
Other Name: Specimen collection for Nuclear acid testing (NAT) on SARS-CoV-2
Inclusion Criteria:
1. Provide written informed consent.
2. Male or female subjects with a minimum age of 18 years at Visit 1.
3. Subjects with a stable kidney transplant taking TAC and a confirmed diagnosis of
SARS-CoV-2 by nuclear acid testing, with mild-to-moderate symptoms.
4. Patients with mild-to-moderate disease symptoms in which mild disease is defined by
non-hospitalized patients without oxygen need and moderate disease symptoms are
defined by hospitalization to a nursing ward with the need of oxygen therapy.
5. Women of childbearing potential must have a negative pregnancy test at baseline. Two
effective forms of contraception must be used simultaneously unless abstinence is the
chosen method. Subjects must use effective contraception during the study.
Exclusion Criteria:
1. Subjects unable or unwilling to give written informed consent and/or to comply with
study procedures.
2. Any known hypersensitivity or contraindication to CNIs, especially CsA, or components
of any cyclosporine drug product.
3. Current or medical history of:
- Congenital immunodeficiency.
- Severe, known, active viral infections, excluding SARS-CoV-2, within 3 months of
baseline (e.g., cytomegalovirus, hepatitis B virus, hepatitis C virus or HIV)
that are deemed to interfere with study assessments or outcome according to
Investigator's judgement.
4. Severe symptoms resulting from SARS-CoV-2 infection defined by requiring admittance to
a medium or high care unit with the need for positive pressure ventilation at
baseline.
5. Other major physical or psychiatric illness or major traumatic injury or any other
medical condition associated with increased risk to the subject or that may affect
study conduct or interfere with study assessments or outcome according to
Investigator's judgement.
6. Subjects who are pregnant, breast feeding or, if of childbearing potential, not using
adequate contraceptive precautions.
7. Participation in another interventional clinical study within 4 weeks prior to
baseline and/or receipt of investigational drugs within 4 weeks or 5 half-lives of the
drug (whichever is longer) prior to baseline.
8. Subjects less than 3 months post-transplant.
9. Subjects with documented organ rejection within the past 3 months.
10. Subjects with a documented estimated glomerular filtration rate (eGFR) <15 ml/min
within the previous 3 months prior to screening.
Leiden University Medical Center
Leiden, Netherlands
Investigator: Dr. Y.K.O. Teng, MD, PhD
Contact: T +31-(0)71-5262148
y.k.o.teng@lumc.nl
Investigator: Dr. Y.K.O. Teng, MD, PhD
Y.K.O. Teng, MD, PhD
+31-(0)71-5262148
y.k.o.teng@lumc.nl
Y.K.O. Teng, MD, PhD, Principal Investigator
Leiden University Medical Center