Lang Frederick F, Bruner Janet M, Fuller Gregory N, Aldape Kenneth, Prados Michael D, Chang Susan, Berger Mitchel S, McDermott Michael W, Kunwar Sandeep M, Junck Larry R, Chandler William, Zwiebel James A, Kaplan Richard S, Yung W K Alfred
Department of Neurosurgery, The University of Texas M.D. Anderson Cancer Center, Houston 77030, USA.
J Clin Oncol. 2003 Jul 1;21(13):2508-18. doi: 10.1200/JCO.2003.21.13.2508.
Advances in brain tumor biology indicate that transfer of p53 is an alternative therapy for human gliomas. Consequently, we undertook a phase I clinical trial of p53 gene therapy using an adenovirus vector (Ad-p53, INGN 201).
To obtain molecular information regarding the transfer and distribution of exogenous p53 into gliomas after intratumoral injection and to determine the toxicity of intracerebrally injected Ad-p53, patients underwent a two-stage approach. In stage 1, Ad-p53 was stereotactically injected intratumorally via an implanted catheter. In stage 2, the tumor-catheter was resected en bloc, and the postresection cavity was treated with Ad-p53. This protocol provided intact Ad-p53-treated biologic specimens that could be analyzed for molecular end points, and because the resection cavity itself was injected with Ad-p53, patients could be observed for clinical toxicity.
Of fifteen patients enrolled, twelve underwent both treatment stages. In all patients, exogenous p53 protein was detected within the nuclei of astrocytic tumor cells. Exogenous p53 transactivated p21CIP/WAF and induced apoptosis. However, transfected cells resided on average within 5 mm of the injection site. Clinical toxicity was minimal and a maximum-tolerated dose was not reached. Although anti-adenovirus type 5 (Ad5) titers increased in most patients, there was no evidence of systemic viral dissemination.
Intratumoral injection of Ad-p53 allowed for exogenous transfer of the p53 gene and expression of functional p53 protein. However, at the dose and schedule evaluated, transduced cells were only found within a short distance of the injection site. Although toxicity was minimal, widespread distribution of this agent remains a significant goal.
脑肿瘤生物学的进展表明,p53基因转移是治疗人类胶质瘤的一种替代疗法。因此,我们开展了一项使用腺病毒载体(Ad-p53,INGN 201)进行p53基因治疗的I期临床试验。
为获取关于瘤内注射后外源性p53在胶质瘤中的转移和分布的分子信息,并确定脑内注射Ad-p53的毒性,患者采用两阶段方法。在第1阶段,通过植入的导管将Ad-p53立体定向瘤内注射。在第2阶段,将肿瘤导管整块切除,并用Ad-p53处理切除后的腔隙。该方案提供了完整的经Ad-p53处理的生物标本,可用于分析分子终点,并且由于切除腔本身注射了Ad-p53,可观察患者的临床毒性。
入组的15名患者中,12名接受了两个治疗阶段。在所有患者中,在星形细胞瘤细胞的细胞核内检测到外源性p53蛋白。外源性p53激活p21CIP/WAF并诱导凋亡。然而,转染细胞平均位于注射部位5毫米范围内。临床毒性极小,未达到最大耐受剂量。虽然大多数患者的抗5型腺病毒(Ad5)滴度升高,但没有全身病毒播散的证据。
瘤内注射Ad-p53可实现p53基因的外源性转移和功能性p53蛋白的表达。然而,在所评估的剂量和方案下,仅在注射部位短距离内发现转导细胞。虽然毒性极小,但该药物的广泛分布仍是一个重要目标。
