We have previously demonstrated that vascular count significantly increases in the preneoplastic lesions of the bronchial tree, starting from very low levels in the normal epithelium to a significantly higher number of microvessels in moderate dysplastic lesions and in situ carcinomas. Vascular endothelial growth factor (VEGF) protein expression has shown to be strictly associated with neovascularization both in human cancer and in various type of preinvasive lesions. A number of studies have demonstrated that mutant p53 is involved in the regulation of angiogenesis, and immunohistochemical detection of the p53 protein is associated with p53 gene mutations. In this study we looked for possible correlation between p53 protein detection, VEGF expression and vascular count in a series of preneoplastic and neoplastic lesions of the bronchial tree in order to investigate the angiogenic pattern and its genetic control in the early steps of bronchial cancer development. Twenty-four retrospective bronchial lesions with different grades of dysplasia and a case of normal bronchial epithelium were analysed. Surgical specimens removed from patients either confirmed, or suspect for lung carcinoma were stained immunohistochemically for CD34, VEGF, and p53. There were significant increases in microvascular density (MVD), VEGF, and p53 expression from normal bronchial epithelium through moderate dysplasia to in situ carcinoma to invasive cancer and these factors were significantly associated with moderate dysplastic lesions. A statistically significant difference was observed in MVD between hyperplastic-metaplastic, moderate dysplastic lesions and in situ carcinoma. A similar pattern was also observed for VEGF and p53 protein expression but no significant difference was observed between moderate dysplastic lesions and in situ carcinoma with regard to VEGF protein expression. The association between MVD, VEGF expression, p53 mutations and preinvasive lesions of the bronchial tree suggests that neoangiogenesis is early in non-small cell lung cancer (NSCLC) development and that p53 may have an important role in promoting angiogenesis in this human model of carcinogenesis.