Rat Umbilical Cord Stem Cells Completely Abolish Rat Mammary Carcinomas with No Evidence of Metastasis or Recurrence 100 Days Post-Tumor Cell Inoculation

doi:10.1158/0008-5472.CAN-08-2750

Cancer Research	Clinical Cancer Research
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Published online first on February 24, 2009
[Cancer Research, 10.1158/0008-5472.CAN-08-2750]

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Cell, Tumor, and Stem Cell Biology

Rat Umbilical Cord Stem Cells Completely Abolish Rat Mammary Carcinomas with No Evidence of Metastasis or Recurrence 100 Days Post–Tumor Cell Inoculation

Chanran Ganta ¹^*, Doi Chiyo ¹, Rie Ayuzawa ¹, Rajashekar Rachakatla ¹, Marla Pyle ¹, Gordon Andrews ², Mark Weiss ¹, Masaaki Tamura ¹, Deryl Troyer ¹

Departments of ¹Anatomy and Physiology and ²Diagnostic Medicine/Pathobiology, College of Veterinary Medicine, Kansas State University, Manhattan, Kansas

^* To whom correspondence should be addressed. E-mail: ckganta{at}vet.k-state.edu.

Abstract

Genetically engineered stem cells efficiently deliver therapeuticproteins to cancer and other sites of inflammation. However,a major advantage would be realized if tumor-trafficking stemcells that have not been genetically modified exhibit an inherentantitumor effect, thus circumventing the necessity of the expressionof exogenous genes by the cells. We transplanted Fisher 344rat–derived mammary adenocarcinoma cells (Mat B III) orthotopicallyinto syngeneic F344 rats with an intact immune system. Rat umbilicalcord matrix stem (rUCMS) cells derived from Wharton's jellywere then administered intratumoral (i.t) or i.v. 4 days later.The tumor attenuation effect was significantly evident startingfrom day 14 in i.v. and i.t. rUCMS cell–transplanted ratscompared with sham-transplanted rats. In addition, unmodifiedrUCMS cell–transplanted rats showed complete regressionof tumors to undetectable levels by 34 to 38 days with no evidenceof metastasis or recurrence 100 days post–tumor cell inoculation.Dye-loaded rUCMS cells were identified within tumors only 4days after their i.v. transplantation. In vitro colony assayswith rUCMS cells as feeder layers markedly reduced Mat B IIIcolony size and number. Growth attenuation of Mat B III cellsexposed to either rUCMS cells directly or to the conditionedmedium derived from rUCMS cells was associated with apoptosisindicators, including increased activated caspase-3. In addition,rUCMS cells cocultured with Mat B III cells had a dose-dependentantiproliferative effect on Mat B III cells. These findingssuggest that unmodified human UCMS cells could be used for targetedcytotherapy for breast cancer. [Cancer Res 2009;69(5):1815–20]

Key Words: rat mammary carcinoma, umbilical cord matrix stem cells, cytotherapy