We report the cases of four patients with end-stage renal disease and New York Heart Association class III or IV heart failure of nonischemic origin as documented by coronary angiography. Because of left ventricular dysfunction (left ventricular end-diastolic pressure, 23 to 30 mm Hg; ejection fraction, 20% to 35%), all four patients were initially considered poor surgical candidates for renal transplantation. These same four patients became asymptomatic, however, with markedly improved cardiac function (ejection fraction, 43% to 69%) detected as early as 6 and 14 days after renal engraftment. Therefore, there exists a subset of patients with end-stage renal disease in whom congestive heart failure should not be considered a contraindication to renal transplantation. We conclude that some dialysis-dependent patients who manifest symptomatic heart failure of nonischemic origin have a reversible cardiomyopathy and should not be denied renal transplantation.
Studies of platinum drug-DNA adduct formation in tissues of cancer patients have involved both atomic absorbance spectroscopy (AAS), which measures total DNA-bound platinum, and anti-cisplatin-DNA enzyme-linked immunosorbent assay (ELISA), which detects a fraction of the AAS-measurable adduct. These studies were designed to explore mechanisms of drug-DNA interactions, to make correlations with clinical outcome, and possibly to validate DNA adduct measurements for use in occupational and environmental biomonitoring. The results, determined by both ELISA and AAS, demonstrate that cisplatin and its analog carboplatin bind to DNA in many human organs, including kidney, brain, peripheral nerve, and bone marrow, which are sites for drug toxicity. Platinum was also observed bound to ovarian tumor DNA. The adducts were highly persistent, being measurable in tissues obtained at autopsy up to 15 months after the last administration of platinum chemotherapy. A comparison of blood cell DNA adduct levels, determined by ELISA, and the clinical response of 139 patients with ovarian, testicular, colon, or breast cancer demonstrated a strong correlation between failure to form DNA adducts and failure of therapy. Conversely, patients who formed high levels of DNA adduct were most likely to respond favorably. A similar correlation was not observed for adducts determined by AAS; that is, the average total DNA-bound platinum levels were the same for patients who did not respond to therapy and for patients who had any kind of response. Thus, in this study, human blood cell DNA adducts measured by ELISA correlate with tumor remission, while those measured by AAS do not.
A series of in vitro and in vivo studies were performed to characterize DNA damage recognized by an antiserum elicited against DNA modified with cis-diamminedichloroplatinum(II) (cisplatin). Adducts determined by the cisplatin-DNA enzyme-linked immunosorbent assay (ELISA) in human blood cell DNA have been shown to correlate well with positive clinical outcome in testicular and ovarian cancer patients receiving platinum drug-based chemotherapy (Reed et al. (1990) Proc. Natl. Acad. Sci., 84; 5024, and Reed et al. (1988) Carcinogenesis, 9, 1909). DNAs from calf thymus, salmon sperm, pBR322 and synthetic oligonucleotides were modified with cisplatin in vitro before or after specific DNA digestion steps to yield adducted samples of known size and/or chemical composition. These cisplatin modified DNAs were assayed by atomic absorption spectrometry (AAS) to assess absolute platinum content, and by ELISA to determine the antiserum specificity. The antiserum recognizes native cisplatin-modified calf thymus DNA, and native oligonucleotides containing intrastrand cis-Pt (NH3)2-d(pGpG) adducts (Pt-GG) and intrastrand cis-Pt (NH3)2-d(pApG) adducts (Pt-AG). Modified plasmid DNA fragments of varying sizes (down to 309 base pairs) are recognized similarly to cisplatin-modified calf thymus DNA. The antiserum does not cross-react with individual Pt-GG or Pt-AG adducts not bound to DNA. In experiments designed to assess the relationship between adduct measured by ELISA and total platinum bound to DNA as measured by AAS, male and female Sprague-Dawley rats were injected i.p. with cisplatin and a dose response for adduct formation was determined in kidney DNA samples. Values obtained by ELISA were substantially lower than those measured by AAS, and the two were directly related in DNA from kidney tissues of rodents but not in DNA from human nucleated blood cells. In rodent samples the ELISA measured a consistent 0.2% of the total DNA-bound platinum determined by AAS, with a correlation coefficient of 0.91. Among 54 blood cell DNA samples from human patients, which gave measurable adduct values in both ELISA and AAS, the ELISA measured a variable fraction (0.2-33.0%) of the total DNA-bound platinum measured by AAS. We conclude that the cisplatin-DNA ELISA measures a three dimensional lesion in DNA that is formed in direct proportion to total DNA-bound platinum in rat kidney, but that in human biological samples, interindividual variability precludes a relationship that conforms to simple mathematical algorithms.
Studies of platinum drug-DNA adduct formation in tissues of cancer patients have involved both atomic absorbance spectroscopy (AAS), which measures total DNA-bound platinum, and anti-cisplatin-DNA enzyme-linked immunosorbent assay (ELUSA), which detects a fraction of the AAS-measurable adduct. These studies were designed to explore mechanisms ofdrug-DNA interactions, to make correlations with clinical outcome, and possibly to validate DNA adduct measurements for use in occupational and environmental bioHmoitoring. The resls, determined by both ELISA and AAS, demonstrate that cisplatin and its analog carboplatin bind to DNA in many human organs, including kidney, brain, peripheral nerve, and bone marrow, which are sites for drug ticity. Platinum was also observed bound to ovarian tumor DNA. The adducts were highly persistent, being measurable in tissues obtained at autopsy upto 15 months after the last administration of platinum chemotherapy. A comparison ofbood cell DNA adduct levels, determined by ELISA, and the clinical response of 139 patients with ovarian, testicular, colon, or breast cancer demonstrated a strong correlation between failure to form DNA adducts and failure of therapy. Conversely, patients who formed high levels of DNA adduct were most likely to respond favorably. A similar correlation was not observed for adducts determined by AAS; that is, the average total DNA-bound platinum levels were the same for patients who did not respond to therapy and for patients who had any kind of response. Thus, in this study, human blood cell DNA adducts measured by ELISA correlate with tumor remission, while those measured by AAS do not.
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