Kidney Disease Clinical Trial
Official title:
Tolerance Induction Following Human Renal Transplantation Using Treatment With a Humanized Monoclonal Antibody Against CD52 (Campath-1H)
This protocol will test a humanized monoclonal antibody known as Campath-1H for its ability
to induce a state of permanent allograft acceptance, or tolerance, when administered in
combination with a brief course of the immunosuppressive drug deoxyspergualin (DSG) at the
time of human renal allotransplantation. Campath-1H is specific for the common lymphocyte
and monocyte antigen CD52. Its administration temporarily depletes mature lymphocytes and
some monocytes without altering neutrophils or hematopoietic stem cells. Deoxyspergualin
inhibits the NFkB pathway thus preventing monocyte and macrophage activation.
Recipients of living or cadaveric donor kidneys will be treated with one dose of Campath-1H
prior to transplantation to insure that peripheral depletion is achieved at the time of
graft reperfusion. Three subsequent doses of Campath-1H will be administered on the first,
third and fifth days after the transplant to deplete passenger donor leukocytes and residual
recipient cells that mobilize in response to the allograft. In addition, patients will be
treated with DSG for 14 days beginning on the day prior to surgery. This trial expands on
pilot studies at the NIH of 15 patients in which Campath was given alone at the time of
transplantation. In those studies, excellent peripheral depletion occurred after just one
dose of Campath though central depletion required additional dosing. This allowed for
greatly reduced immunosuppression to be used to prevent rejection, but to date, all patients
have required some immunosuppressive medication. It is hoped that the addition of DSG will
eliminate the need for long-term immunosuppression.
Patients will be followed closely in the post transplant period. If patients experience
rejection, they will be treated with methylprednisolone and have immunosuppression added
using sirolimus as the predominant immunosuppressive agent. In the previous phase of this
study without DSG, this maneuver has in all cases been successful in returning the allograft
to normal function.
In addition to evaluating graft function following transplantation, this protocol will also
characterize and evaluate the function of the immune system and the composition of the T
cell repertoire following the administration of Campath-1H and DSG, and during immune system
recovery after transplantation.
This protocol will test a humanized monoclonal antibody known as Campath-1H for its ability
to induce a state of permanent allograft acceptance, or tolerance, when administered in
combination with a brief course of the immunosuppressive drug deoxyspergualin (DSG) at the
time of human renal allotransplantation. Campath-1H is specific for the common lymphocyte
and monocyte antigen CD52. Its administration temporarily depletes mature lymphocytes and
some monocytes without altering neutrophils or hematopoietic stem cells. Deoxyspergualin
inhibits the Rel-B/ NFkB pathway thus preventing monocyte and macrophage activation.
Extensive preliminary data have been accumulated in humans using Campath-1H and its
non-humanized predecessors. Additionally, data have been generated using a similar depleting
scheme with and without DSG in non-human primates. Both the human and non-human primate data
suggest that profound mature mononuclear cell depletion establishes a window of opportunity
during which foreign tissue can be transplanted without the need for additional
immunosuppression. Regulatory events occuring during mature cell repopulation in the
presence of allografted tissue created a state in which the graft may not be rejected even
in the absence of chronic immunosuppression.
Recipients of living or cadaveric donor kidneys will be treated with one dose of Campath-1H
prior to transplantation to insure that peripheral depletion is achieved at the time of
graft reperfusion. Three subsequent doses of Campath-1H will be administered on the first,
third and fifth days after the transplant to deplete passenger donor leukocytes and residual
recipient cells that mobilize in response to the allograft. In addition, patients will be
treated with DSG 4mg/kg/d x 1 beginning on day 12 and then 2.5 mg/kg/d for an additional 13
days. This trial expands on pilot studies at the NIH of 17 patients in which Campath was
dosed both prior to and after transplantation with and without DSG. In those studies,
excellent peripheral depletion occured after just one dose of Campath though central
depletion required additional dosing. Thus, the goal of pre-reperfusion depletion can be
achieved with a single pre-operative dose but thorough depletion requires additional
post-operative dosing. Lasting rejection-free survival was not realized without the addition
of some, albeit reduced immunosuppression. This is thought to be due to residual
post-operative monocytes that infiltrated the allograft causing modest reversible allograft
dysfunction. The current dosing regimen with DSG is thus designed to accomplish both
pre-operative depletion, and more thorough post operative elimination of donor and recipient
cells mobilizing as a result of reperfusion, combined with therapy aimed at preventing the
activation of monocytes that escape depletion. The timing of the DSG is meant to correspond
with the peripheral repopulation of monocytes seen in previous patients.
Patients will be followed closely in the post transplant period for evidence of a
detrimental immune response to the allograft. In the previous patients experiencing graft
directed immunity the graft dysfunction was preceded by a rise in activated monocytes in the
peripheral blood and augmented transcription of the cytokine Tumor Necrosis Factor-alpha
(TNF-a) in the allograft. This syndrome has been resistant to treatment with the TNF-a
sequestrant Infliximab and is now thought to require more comprehensive monocyte directed
therapy. If patients progress and graft dysfunction occurs, patients will be treated with
methylprednisolone and have immunosuppression added using sirolimus as the predominant
immunosuppressive agent. This maneuver has in all cases been successful in returning the
allograft to normal function. Sirolimus has been chosen since it does not act by interfering
with specific T cell receptor function, and thus, provides immunosuppressive coverage during
cell repopulation without interfering with the antigen specific T cell events important for
tolerance induction. Non-human primate and human clinical data support both of these
approaches.
In addition to evaluating graft and patient outcome following transplantation, this protocol
will also characterize and evaluate the function of the immune system and the composition of
the T cell repertoire following the administration of Campath-1H and DSG, and during immune
system recovery after transplantation.
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Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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