Local radiotherapy reduces circulating tumor cells and metastatic progression: role of circulating cell detection in response to vascular damaging therapies
Noninvasive biological readouts of tumor metastatic risk and therapeutic efficacy are needed as healthcare costs rise. Conventional imaging modalities are expensive; require significant periods of time to see appreciable change and repetitive use increases risk of hazardous side effects. Utilizing c...
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| Veröffentlicht in: | Biochemical and biophysical research communications 2017-08, Vol.492 (3), p.507-512 |
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| creator | Koonce, Nathan A. Juratli, Mazen A. Cai, Chengzhong Sarimollaoglu, Mustafa Menyaev, Yulian A. Dent, Judy Quick, Charles M. Dings, Ruud P.M. Nedosekin, Dmitry Zharov, Vladimir P. Griffin, Robert J. |
| description | Noninvasive biological readouts of tumor metastatic risk and therapeutic
efficacy are needed as healthcare costs rise. Conventional imaging modalities
are expensive; require significant periods of time to see appreciable change and
repetitive use increases risk of hazardous side effects. Utilizing circulating
tumor cells (CTCs) as a minimally invasive biological readout of tumor
progression or therapeutic response is increasingly being studied. While focus
has primarily been on the predictive value of naturally occurring CTCs, a more
recent effort has emerged regarding the potential consequence of therapy induced
CTCs. Here we report an investigation on the acute and long-term effect of
vascular disrupting therapies (high-dose radiotherapy and tumor necrosis
factor-alpha (TNF)) on CTCs monitored with a non-invasive real-time system.
Acute mobilization of CTCs into the blood following both radiation and TNF
treatment was observed. There was no increase in metastasis frequency or extent
between control and TNF-treated mice; however, a significant reduction in lung
metastasis was noted in the radiotherapy alone group. Mice treated with both TNF
and radiotherapy had a slightly elevated metastatic profile between that of
radiation alone and control (untreated) tumors. Possible mechanisms based on
therapy specific vessel disruption and cell death are discussed. Overall, CTCs
correlated with tumor progression and suggest CTC enumeration described herein
may be useful in clinical management of solid tumor malignancies. |
| doi_str_mv | 10.1016/j.bbrc.2017.08.053 |
| format | Article |
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efficacy are needed as healthcare costs rise. Conventional imaging modalities
are expensive; require significant periods of time to see appreciable change and
repetitive use increases risk of hazardous side effects. Utilizing circulating
tumor cells (CTCs) as a minimally invasive biological readout of tumor
progression or therapeutic response is increasingly being studied. While focus
has primarily been on the predictive value of naturally occurring CTCs, a more
recent effort has emerged regarding the potential consequence of therapy induced
CTCs. Here we report an investigation on the acute and long-term effect of
vascular disrupting therapies (high-dose radiotherapy and tumor necrosis
factor-alpha (TNF)) on CTCs monitored with a non-invasive real-time system.
Acute mobilization of CTCs into the blood following both radiation and TNF
treatment was observed. There was no increase in metastasis frequency or extent
between control and TNF-treated mice; however, a significant reduction in lung
metastasis was noted in the radiotherapy alone group. Mice treated with both TNF
and radiotherapy had a slightly elevated metastatic profile between that of
radiation alone and control (untreated) tumors. Possible mechanisms based on
therapy specific vessel disruption and cell death are discussed. Overall, CTCs
correlated with tumor progression and suggest CTC enumeration described herein
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are expensive; require significant periods of time to see appreciable change and
repetitive use increases risk of hazardous side effects. Utilizing circulating
tumor cells (CTCs) as a minimally invasive biological readout of tumor
progression or therapeutic response is increasingly being studied. While focus
has primarily been on the predictive value of naturally occurring CTCs, a more
recent effort has emerged regarding the potential consequence of therapy induced
CTCs. Here we report an investigation on the acute and long-term effect of
vascular disrupting therapies (high-dose radiotherapy and tumor necrosis
factor-alpha (TNF)) on CTCs monitored with a non-invasive real-time system.
Acute mobilization of CTCs into the blood following both radiation and TNF
treatment was observed. There was no increase in metastasis frequency or extent
between control and TNF-treated mice; however, a significant reduction in lung
metastasis was noted in the radiotherapy alone group. Mice treated with both TNF
and radiotherapy had a slightly elevated metastatic profile between that of
radiation alone and control (untreated) tumors. Possible mechanisms based on
therapy specific vessel disruption and cell death are discussed. Overall, CTCs
correlated with tumor progression and suggest CTC enumeration described herein
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are expensive; require significant periods of time to see appreciable change and
repetitive use increases risk of hazardous side effects. Utilizing circulating
tumor cells (CTCs) as a minimally invasive biological readout of tumor
progression or therapeutic response is increasingly being studied. While focus
has primarily been on the predictive value of naturally occurring CTCs, a more
recent effort has emerged regarding the potential consequence of therapy induced
CTCs. Here we report an investigation on the acute and long-term effect of
vascular disrupting therapies (high-dose radiotherapy and tumor necrosis
factor-alpha (TNF)) on CTCs monitored with a non-invasive real-time system.
Acute mobilization of CTCs into the blood following both radiation and TNF
treatment was observed. There was no increase in metastasis frequency or extent
between control and TNF-treated mice; however, a significant reduction in lung
metastasis was noted in the radiotherapy alone group. Mice treated with both TNF
and radiotherapy had a slightly elevated metastatic profile between that of
radiation alone and control (untreated) tumors. Possible mechanisms based on
therapy specific vessel disruption and cell death are discussed. Overall, CTCs
correlated with tumor progression and suggest CTC enumeration described herein
may be useful in clinical management of solid tumor malignancies.</abstract><pmid>28822765</pmid><doi>10.1016/j.bbrc.2017.08.053</doi></addata></record> |
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| ispartof | Biochemical and biophysical research communications, 2017-08, Vol.492 (3), p.507-512 |
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| language | eng |
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| source | Access via ScienceDirect (Elsevier) |
| title | Local radiotherapy reduces circulating tumor cells and metastatic progression: role of circulating cell detection in response to vascular damaging therapies |
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