Ana M. Natale scite author profile

Ana M. Natale

5Publications

88Citation Statements Received

50Citation Statements Given

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117

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Affiliations

Center for Molecular Medicine and Immunology, United States Public Health Service

Publications

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Successful Radioimmuno-therapy for Lung Metastasis of Human Colonic Cancer in Nude Mice

Sharkey¹,

Weadock

Natale

et al. 1991

JNCI Journal of the National Cancer Institute

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The potential for radioimmunotherapy as an adjuvant treatment for early disseminated colonic cancer was investigated in an experimental lung metastasis model. Nude mice receiving intravenous injection with a suspension of human colonic cancer cells (GW-39) developed multiple (10-100) tumor nodules throughout the lungs, and more than 50% of the animals died of extensive tumor involvement within 5-10 weeks. Groups of eight or nine animals bearing 7-day-old tumor transplants were treated with a single intravenous injection of radioiodinated agents: either 0.15 or 0.30 mCi of whole IgG of the NP-4 murine monoclonal antibody (MAb) against carcinoembryonic antigen (CEA) or 0.15 or 0.30 mCi of whole IgG of Immu-31, an anti-alpha-fetoprotein (anti-AFP) MAb. Treatment of animals with 0.15 or 0.30 mCi of 131I-labeled NP-4 IgG 7 days after injection of tumor cells resulted in survival for 23 weeks after tumor implantation in four of eight and seven of nine animals, respectively. Microscopic examination revealed that over 90% of the lung tumor colonies had no evidence of surviving cells. Animals treated with 0.30 mCi of anti-AFP, an irrelevant MAb, survived 4 weeks longer than controls. Toxicity was evident in four of the 17 animals given 0.30 mCi of NP-4 IgG (specific) or anti-AFP IgG (irrelevant) MAb. These animals died within 1-3 weeks after radioantibody injection, suggesting that death was related to the radiation dose. None of the animals given 0.15 mCi of 131I-MAb died within this period.(ABSTRACT TRUNCATED AT 250 WORDS)

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Influence of animal host and tumor implantation site on radio‐antibody uptake in the GW‐39 human colonic cancer xenograft

Blumenthal

Sharkey

Kashi

et al. 1989

Intl Journal of Cancer

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The magnitude and kinetics of tumor uptake of a monoclonal antibody (MAb) directed against carcinoembryonic antigen (CEA) in the GW-39 human colorectal cancer xenograft differ according to the animal used (nude mouse or hamster) and the site of implantation of the tumor within the animal (cheek pouch, leg muscle, subcutaneous or liver). Several physiological factors have been evaluated in an attempt to explain these differences in radio-antibody accumulation. The following observations have been made: (1) The animal host with the slower blood clearance of radio-antibody and the higher non-tumor tissue uptake has the higher tumor uptake; (2) the xenografts with a higher blood-flow rate, vascular volume and/or vascular permeability have a higher specific radio-antibody targeting; (3) the smaller, more viable tumors take up more radio-antibody per gram than the larger tumors; and (4) tumors with higher specific antigen content accrete more radio-antibody. These results are discussed in terms of the feasibility of clinical tumor imaging and therapy with radiolabelled antibodies.

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Physiological factors influencing radioantibody uptake: A study of four human colonic carcinomas

Blumenthal

Sharkey

Kashi

et al. 1992

Intl Journal of Cancer

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We evaluated the accretion of 131I-labeled NP-4 anticarcinoembryonic antigen (CEA) into 4 size-matched human colonic carcinomas grown s.c. in nude mice. Antibody uptake for LS174T and GW-39 tumors was relatively high (19 to 23% ID/g on day 3), whereas moderate uptake was seen in the Moser tumor (7.5% on day 3) and low uptake was detected in the GS-2 tumor (1.8% on day 3). Blood clearance of radioantibody was twice as fast in mice with GS-2 tumors than in mice with GW-39, LS174T or Moser tumors. Seven physiological parameters that might influence radioantibody accretion were evaluated in order to better understand the differences in observed tumor targeting: vascular volume, blood flow rate, vascular permeability, tumor antigen content, serum antigen content and complexation of radioantibody, intratumoral antigen distribution, and intracellular antigen distribution. Although marked variability in vascular physiology, antigen content and antibody complexation of the 4 tumors grown in the same host and site existed, it was insufficient to explain the differences in antibody uptake. However, intra-tumoral distribution of antigen, and sub-cellular accessibility of antigen for radioantibody were important considerations. GS-2 tumors are well differentiated and have polarized cells. CEA in GS-2 is largely inaccessible to radioantibody; most of the antigen is located in the lumen of the glands or on the apical surface of gland cells and most of the antibody distributes to the stromal region on the basolateral surface. The low antibody targeting in GS-2 could therefore be explained by restricted intra-tumor accessibility of antibody. Scatchard analysis of NP-4 binding to Moser cells under non-internalizing and internalizing conditions revealed that 90% of the antigen is found within the cell, unavailable to bind with the NP-4 antibody, which is slow to internalize. In contrast, CEA in LS174T cells was almost entirely accessible. The reduced antibody targeting to Moser xenografts might therefore, be explained by restricted antibody accessibility at the cellular level.

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Enhanced clearance of radiolabeled murine monoclonal antibody by a syngeneic anti‐idiotype antibody in tumor‐bearing nude mice

Sharkey

Boerman

Natale

et al. 1992

Intl Journal of Cancer

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A syngeneic anti-idiotype monoclonal antibody (MAb) (CM-11) directed against an anti-carcinoembryonic antigen (CEA) murine MAb (NP-4) was evaluated as a second antibody (SA) to promote the rapid clearance of radiolabeled NP-4 from the blood. Initial studies confirmed that CM-11 IgG removed 131I-NP-4 IgG from the blood as effectively as a polyclonal donkey anti-goat IgG removed 131I-goat IgG. However, use of an F(ab')2 in place of either the NP-4 or CM-11 IgG was not as effective in removing primary radiolabeled antibody, despite the formation of high-molecular-weight complexes. In accordance with previous results, the timing and dose of the SA injection was critical for optimizing tumor uptake and improving tumor/non-tumor ratios. In nude mice bearing GW-39 human colonic tumor xenografts, a delay in the injection of CM-11 by 48 hr after injection of radiolabeled NP-4 was optimal, since this allowed maximum tumor accretion. At a 200:1 CM-11:NP-4 ratio, tumor uptake was reduced, suggesting inhibition of NP-4 binding to CEA within the tumor. Despite optimizing tumor uptake by delaying SA injection and adjusting its dose, the percentage of 131I-NP-4 in the tumor decreased 2- to 3-fold within 2 days after CM-11 injection. A similar effect was seen for 111In-labeled NP-4 IgG with CM-11. Injection of excess unlabeled NP-4 given to block CM-11 shortly after its injection failed to curtail the loss of NP-4 from the tumor. Our results suggest that high blood levels of MAb are important for sustaining NP-4 in the tumor. Radiation-dose predictions derived from biodistribution studies indicate that a higher tumor dose may be delivered using the SA method than with either 131I-NP-4 IgG or F(ab')2 alone. Use of the SA method with 90Y-labeled NP-4 IgG, as modeled from biodistribution studies with 111In-NP-4 IgG, would likely be limited by liver toxicity.

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Poster Session 3

Fabbri¹,

Baldasseroni²,

Panuccio³

et al. 2011

Europace

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Ana M. Natale

Successful Radioimmuno-therapy for Lung Metastasis of Human Colonic Cancer in Nude Mice

Influence of animal host and tumor implantation site on radio‐antibody uptake in the GW‐39 human colonic cancer xenograft

Physiological factors influencing radioantibody uptake: A study of four human colonic carcinomas

Enhanced clearance of radiolabeled murine monoclonal antibody by a syngeneic anti‐idiotype antibody in tumor‐bearing nude mice

Poster Session 3

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