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Query: UMLS:C0026764 (
multiple myeloma
)
36,148
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Edmonston vaccine strain of measles virus (MV-Edm) propagates efficiently in a broad range of human tumor cells, killing them selectively. However, the oncolytic potency of MV-Edm in different human tumor xenograft therapy models is highly variable and there is no convenient way to map the distribution of virus-infected tissues in vivo. To enhance the oncolytic potency of MV-Edm against radiosensitive malignancies and to facilitate noninvasive imaging of infected tissues, we generated a recombinant MV-Edm encoding the human thyroidal iodide symporter (
NIS
). MV-
NIS
replicated almost as efficiently as unmodified MV-Edm, and human tumor cells efficiently concentrated radioiodine when infected with MV-
NIS
. Intratumoral spread of MV-
NIS
was noninvasively demonstrated by serial gamma-camera imaging of iodine-123 (123I) uptake both in MV-sensitive KAS-6/1
myeloma
xenografts, which regressed completely after a single intravenous dose of MV-
NIS
, and in MM1
myeloma
xenografts, which were unresponsive to MVNIS therapy. However, MV-resistant MM1 tumors regressed completely when 131I was administered 9 days after a single intravenous injection of MV-
NIS
(radiovirotherapy). 131I alone had no effect on MM1 tumor growth. While the potential hematopoietic toxicity of this new therapy requires further evaluation, image-guided radiovirotherapy is a promising new approach to the treatment of
multiple myeloma
, an incurable but highly radiosensitive plasma cell malignancy. Testing in other radiosensitive cancers is warranted.
...
PMID:Image-guided radiovirotherapy for multiple myeloma using a recombinant measles virus expressing the thyroidal sodium iodide symporter. 1460 66
The Na(+)/I(-) symporter (
NIS
) is the plasma membrane glycoprotein that mediates the active uptake of I(-) in the thyroid, ie, the crucial first step in thyroid hormone biosynthesis.
NIS
also mediates I(-) uptake in other tissues, such as salivary glands, gastric mucosa, and lactating (but not nonlactating) mammary gland. The ability of thyroid cancer cells to actively transport I(-) via
NIS
provides a unique and effective delivery system to detect and target these cells for destruction with therapeutic doses of radioiodide. Breast cancer is the only malignancy other than thyroid cancer to have been shown to functionally express
NIS
endogenously. The considerable potential diagnostic and therapeutic use of radioiodide in breast cancer is currently being assessed. On the other hand, exogenous
NIS
gene transfer has successfully been carried out into a variety of other cell lines and tumors, including A375 human melanoma tumors, and SiHa cervix cancer, human glioma, and hepatoma cell lines. Most notably, significant radioiodine therapy results have been obtained in the
NIS
-transfected human prostatic adenocarcinoma cell line LNCaP and in
NIS
-transfected
myeloma
cells, both of which exhibited prolonged retention of radio iodide even in the absence of I(-) organification. The therapeutic potential of alternative
NIS
-transported radioisotopes with different decay properties and a shorter, physical half-life than 131I(-), such as beta-emitter 188Rhenium (188ReO(4)-) and alpha-emitter 211Astatine (211At(-)), has been evaluated. In conclusion, it is clear that the remarkable progress made in the last few years in the molecular characterization of
NIS
has created new opportunities for the development of diagnostic and therapeutic applications for
NIS
in nuclear medicine.
...
PMID:The Na/I symporter (NIS): imaging and therapeutic applications. 1473 56
A recombinant measles virus (MV) expressing the sodium iodide symporter (
NIS
) is being considered for therapy of advanced
multiple myeloma
. Auger electrons selectively damage cells in which the isotope decays. We hypothesized that the Auger electron emitting isotope 125I can be used to control viral proliferation. MV was engineered to express both carcinoembryonic antigen and
NIS
(MV-NICE). Cells were infected with MV-NICE and exposed to 125I with appropriate controls. MV-NICE replication in vitro is inhibited by the selective uptake of 125I by cells expressing
NIS
. Auger electron damage is partly mediated by free radicals and abrogated by glutathione. In
myeloma
xenografts, control of MV-NICE with 125I was not possible under the conditions of the experiment. MV-NICE does not replicate faster in the presence of radiation. Auger electron emitting isotopes effectively stop propagation of MV vectors expressing
NIS
in vitro. Additional work is necessary to translate these observations in vivo.
...
PMID:Interaction of measles virus vectors with Auger electron emitting radioisotopes. 1617 77
Multiple myeloma
is a radiosensitive malignancy that is currently incurable. Here, we generated a novel recombinant vesicular stomatitis virus [VSV(Delta51)-
NIS
] that has a deletion of methionine 51 in the matrix protein and expresses the human sodium iodide symporter (
NIS
) gene. VSV(Delta51)-
NIS
showed specific oncolytic activity against
myeloma
cell lines and primary
myeloma
cells and was able to replicate to high titers in
myeloma
cells in vitro. Iodide uptake assays showed accumulation of radioactive iodide in VSV(Delta51)-
NIS
-infected
myeloma
cells that was specific to the function of the
NIS
transgene. In bg/nd/xid mice with established subcutaneous
myeloma
tumors, administration of VSV(Delta51)-
NIS
resulted in high intratumoral virus replication and tumor regression. VSV-associated neurotoxicity was not observed. Intratumoral spread of the infection was monitored noninvasively by serial gamma camera imaging of (123)I-iodide biodistribution. Dosimetry calculations based on these images pointed to the feasibility of combination radiovirotherapy with VSV(Delta51)-
NIS
plus (131)I. Immunocompetent mice with syngeneic 5TGM1
myeloma
tumors (either subcutaneous or orthotopic) showed significant enhancements of tumor regression and survival when VSV(Delta51)-
NIS
was combined with (131)I. These results show that VSV(Delta51)-
NIS
is a safe oncolytic agent with significant therapeutic potential in
multiple myeloma
.
...
PMID:Radioiodide imaging and radiovirotherapy of multiple myeloma using VSV(Delta51)-NIS, an attenuated vesicular stomatitis virus encoding the sodium iodide symporter gene. 1751 1
MV-
NIS
is an oncolytic measles virus encoding the human thyroidal sodium iodide symporter (
NIS
). Here, we report the results of preclinical pharmacology and toxicology studies conducted in support of our clinical protocol "Phase I Trial of Systemic Administration of Edmonston Strain of Measles Virus, Genetically Engineered to Express
NIS
, with or without Cyclophosphamide, in Patients with Recurrent or Refractory
Multiple Myeloma
." Dose-response studies in the KAS-6/1
myeloma
xenograft model demonstrated a minimum effective dose of 4 x 10(6) TCID50 (tissue culture infectious dose 50)/kg. Toxicity studies in measles-naive squirrel monkeys and measles-susceptible transgenic mice were negative at intravenous doses up to 10(8) and 4 x 10(8) TCID50/kg, respectively. Abundant viral mRNA, maximal on day 8, was detected in cheek swabs of squirrel monkeys, more so after pretreatment with cyclophosphamide. On the basis of these data, the safe starting dose of MV-
NIS
for our clinical protocol was set at 1-2 x 10(4) TCID50/kg (10(6) TCID50 per patient).
...
PMID:Preclinical pharmacology and toxicology of intravenous MV-NIS, an oncolytic measles virus administered with or without cyclophosphamide. 1797 16
Viruses have adapted through millennia of evolution to effectively invade and lyse cells through diverse mechanisms. Strains of the attenuated measles virus Edmonston (MV-Edm) vaccine lineage can preferentially infect and destroy cancerous cells while sparing the surrounding tissues. This specificity is predominantly due to overexpression of the measles virus receptor CD46 in tumor cells. To facilitate in vivo monitoring of viral gene expression and replication, these oncolytic strains have been engineered to either express soluble marker peptides, such as the human carcinoembryonic antigen (CEA; MV-CEA virus), or genes that facilitate imaging and therapy, such as the human thyroidal sodium iodide symporter (
NIS
) gene (MV-
NIS
). Preclinical efficacy and safety data for engineered oncolytic MV-Edm derivatives that led to their clinical translation are discussed in this review, and an overview of the early experience in three ongoing clinical trials of patients with ovarian cancer, glioblastoma multiforme and
multiple myeloma
is provided. The information obtained from these ongoing trials will guide the future clinical application and further development of MV strains as anticancer agents.
...
PMID:Clinical testing of engineered oncolytic measles virus strains in the treatment of cancer: an overview. 1916 59
Multiple myeloma
(MM) is bone marrow plasma cell malignancy. A clinical trial utilizing intravenous administration of oncolytic measles virus (MV) encoding the human
sodium-iodide symporter
(MV-
NIS
) is ongoing in
myeloma
patients. However, intravenously administered MV-
NIS
is rapidly neutralized by antiviral antibodies. Because
myeloma
cell lines retain bone marrow tropism, they may be ideal as carriers for delivery of MV-
NIS
to
myeloma
deposits. A disseminated human
myeloma
(KAS 6/1) model was established. Biodistribution of MM1, a
myeloma
cell line, was determined after intravenous infusion. MM1 cells were found in the spine, femurs, and mandibles of tumor-bearing mice. Lethally irradiated MM1 cells remained susceptible to measles infection and transferred MV to KAS 6/1 cells in the presence of measles immune sera. Mice-bearing disseminated
myeloma
and passively immunized with measles immune serum were given MV-
NIS
or lethally irradiated MV-
NIS
-infected MM1 carriers. The antitumor activity of MV-
NIS
was evident only in measles naive mice and not in passively immunized mice. In contrast, survivals of both measles naive and immune mice were extended using MV-
NIS
-infected MM1 cell carriers. Hence, we demonstrate for the first time that systemically administered cells can serve as MV carriers and prolonged survival of mice with pre-existing antimeasles antibodies.
...
PMID:Systemic therapy of disseminated myeloma in passively immunized mice using measles virus-infected cell carriers. 2023 40
Oncolytic measles virus (MV) encoding the human thyroidal sodium iodide symporter (MV-
NIS
) has proved to be safe after intraperitoneal or intravenous administration in patients with ovarian cancer or
multiple myeloma
, respectively, but it has not yet been administered through intratumoral injection in humans. Squamous cell carcinoma (SCC) of the head and neck (SCCHN) usually is locally invasive and spreads to the cervical lymph nodes, which are suitable for the intratumoral administration of oncolytic viruses. To test whether oncolytic MV is an effective treatment for SCCHN, we used oncolytic MV-
NIS
to infect SCCHN in vitro and in vivo. The data show that SCCHN cells were infected and killed by MV-
NIS
in vitro. Permissiveness of the tumor cells to MV infection was not affected by irradiation after viral addition. Monitored noninvasively through radioiodine-based single-photon emission computed tomography/computed tomography, intratumorally virus-delivered
NIS
has concentrated the radioiodine in the MV-
NIS
-treated tumors in the FaDu mouse xenograft model of human SCCHN, and the antitumor effect could be boosted significantly (p<0.05) either with concomitant cyclophosphamide therapy or with appropriately timed administration of radioiodine (131)I. MV-
NIS
could be a promising new anticancer agent that may substantially enhance the outcomes of standard therapy after intratumoral administration in patients with locally advanced SCCHN.
...
PMID:Oncolytic measles virus encoding thyroidal sodium iodide symporter for squamous cell cancer of the head and neck radiovirotherapy. 2223 10
Anaplastic thyroid cancer is an extremely aggressive disease resistant to radioiodine treatment because of loss of sodium iodide symporter (
NIS
) expression. To enhance prognosis of this fatal cancer, we validated the preclinical efficacy of measles virus (MV)-
NIS
, the vaccine strain of the oncolytic MV (MV-Edm), modified to include the
NIS
gene. Western blotting analysis confirmed that a panel of eight anaplastic thyroid cancer (ATC)-derived cell lines do not express
NIS
protein, but do express CD46, the MV receptor. In vitro cell death assays and in vivo xenograft studies demonstrate the oncolytic efficacy of MV-
NIS
in BHT-101 and KTC-3, ATC-derived cell lines. Radioactive iodine uptake along with single-photon emission computed tomography (SPECT)-computed tomography imaging of KTC-3 xenografts after (99)Tc(m) administration confirmed
NIS
expression in vitro and in vivo, respectively, after virus treatment. Adjuvant administration of RAI, to MV-
NIS
-treated KTC-3 tumors showed a trend for increased tumor cell killing. As current treatment for ATC is only palliative, and MV-
NIS
is currently Food and Drug Administration approved for human clinical trials in
myeloma
, our data indicate that targeting ATC with MV-
NIS
could prove to be a novel therapeutic strategy for effective treatment of iodine-resistant ATC and will expedite its testing in clinical trials for this aggressive disease.
...
PMID:Preclinical efficacy of the oncolytic measles virus expressing the sodium iodide symporter in iodine non-avid anaplastic thyroid cancer: a novel therapeutic agent allowing noninvasive imaging and radioiodine therapy. 2279 Sep 62
MV-
NIS
is an engineered measles virus that is selectively destructive to
myeloma
plasma cells and can be monitored by noninvasive radioiodine imaging of
NIS
gene expression. Two measles-seronegative patients with relapsing drug-refractory
myeloma
and multiple glucose-avid plasmacytomas were treated by intravenous infusion of 10(11) TCID50 (50% tissue culture infectious dose) infectious units of MV-
NIS
. Both patients responded to therapy with M protein reduction and resolution of bone marrow plasmacytosis. Further, one patient experienced durable complete remission at all disease sites. Tumor targeting was clearly documented by
NIS
-mediated radioiodine uptake in virus-infected plasmacytomas. Toxicities resolved within the first week after therapy. Oncolytic viruses offer a promising new modality for the targeted infection and destruction of disseminated cancer.
...
PMID:Remission of disseminated cancer after systemic oncolytic virotherapy. 2483 29
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