Selective depletion of tumor neovasculature by microbubble destruction with appropriate ultrasound pressure

Low‐intensity ultrasound‐microbubble (LIUS‐MB) treatment is a promising antivascular therapy for tumors. We sought to determine whether LIUS‐MB treatment with an appropriate ultrasound pressure could achieve substantial and persistent cessation of tumor perfusion without having significant effects on normal tissue. Further, we investigated the mechanisms underlying this treatment. Murine S‐180 sarcomas, thigh muscles, and skin tissue from 60 tumor‐bearing mice were subjected to sham therapy, an ultrasound application combined with microbubbles in four different ultrasound pressures (0.5, 1.5, 3.0, 5.0 MPa), or ultrasound at 5.0 MPa alone. Subsequently, contrast‐enhanced ultrasonic imaging and histological studies were performed. Tumor microvessels, tumor cell necrosis, apoptosis, tumor growth, and survival were evaluated in 85 mice after treatment with the selected ultrasound pressure. We found that twenty‐four hours after LIUS‐MB treatment at 3.0 MPa, blood perfusion and microvessel density of the tumor had substantially decreased by 84 ± 8% and 84%, respectively (p < 0.01). Similar reductions were not observed in the muscle or skin. Additionally, an extreme reduction in the number of immature vessels was observed in the tumor (reduced by 90%, p < 0.01), while the decrease in mature vessels was not significant. Further, LIUS‐MB treatment at 3.0 MPa promoted tumor cell necrosis and apoptosis, delayed tumor growth, and increased the survival rate of tumor‐bearing mice (p < 0.01). These findings indicate that LIUS‐MB treatment with an appropriate ultrasound pressure could selectively and persistently reduce tumor perfusion by depleting the neovasculature. Therefore, LIUS‐MB treatment offers great promise for clinical applications in antivascular therapy for solid tumors.     

A systems approach to cancer therapy

Conclusion The molecules described herein as antiangiogenic agents and antimetastatic agents represent a wide variety of molecular structures with a wide variety of biological effects and targets. Most often these agents have been generally classified as antiangiogenic or antimetastatic by their effects in an in vitro bio-assay system. The diversity in this group of molecules gives strength to the potential of this approach in therapeutic applications. The biological and biochemical pathways involved in angiogenesis are numerous and redundant. It is likely that there are many angiogenic factors and many pathways of invasion, therefore it is likely that blockade of more than one pathway related to angiogenesis and/or invasion will be necessary to impact on the natural progress of a malignant disease.The vasculature forms the first barrier to penetration of molecules into tumors. Although the antiangiogenic agent treatments administered in this study did not inhibit angiogenesis in these tumors completely, the vasculature present in the treated tumors may be impaired compared to control tumors. Overall, therefore, the best speculation is that the main targets for the antiangiogenic agents are extracellular matrix processes and/or tumor endothelial cells and that inhibition and/or impairment of these non-malignant functions can improve therapeutic responses when used in combination with cytotoxic therapies. The incorporation of antiangiogenic agents and/or antimetastatic agents into therapeutic regimens represents an important challenge. The successful treatment of cancer requires the eradication of all malignant cells and therefore treatment with cytotoxic therapies. The compatibility of antiangiogenic therapy and/or anti-invasion agents with cytotoxic chemotherapeutic agents is not obvious [316].The goal of the addition of any non-cytotoxic potentiator to a therapeutic regimen is to take a good therapy and, without additional toxicity, push it to cure.Cyclophosphamide is a good drug against the Lewis lung carcinoma although no long-term survivors of animals bearing Lewis lung carcinoma are achieved with cyclophosphamide treatment alone. Adding antiangiogenic agents to treatment of this tumor with cyclophosphamide produced a cure rate of 40–50%, meaning that both the primary and metastatic disease has been eradicated in these animals. Cures were achieved only when the antiangiogenic treatments extended from days 4–18 post Lewis lung tumor implantation. The results obtained with the addition of antiangiogenic agents to cytotoxic anticancer therapies in in vivo models of established solid tumors have been very positive and provide direction for future clinical trials including these antiangiogenic agents. Two conclusions may be drawn. First, combinations of antiangiogenic and/or antimetastatic agents evoke a greater effect on tumor response to therapy than does treatment with single agents of these classes. Second, treatment with antiangiogenic agents and/or antimetastatic agents can interact in a positive way with cytotoxic therapies.     

Ultrasound-targeted microbubble destruction mediated herpes simplex virus-thymidine kinase gene treats hepatoma in mice

Objective

The purpose of the study was to explore the anti-tumor effect of ultrasound -targeted microbubble destruction mediated herpes simplex virus thymidine kinase (HSV-TK) suicide gene system on mice hepatoma.

Methods

Forty mice were randomly divided into four groups after the models of subcutaneous transplantation tumors were estabilished: (1) PBS; (2) HSV-TK (3) HSV-TK+ ultrasound (HSV-TK+US); (4) HSV-TK+ultrasound+microbubbles (HSV-TK+US+MB). The TK protein expression in liver cancer was detected by western-blot. Applying TUNEL staining detected tumor cell apoptosis. At last, the inhibition rates and survival time of the animals were compared among all groups.

Results

The TK protein expression of HSV-TK+MB+US group in tumor-bearing mice tissues were significantly higher than those in other groups. The tumor inhibitory effect of ultrasound-targeted microbubble destruction mediated HSV-TK on mice transplantable tumor was significantly higher than those in other groups (p < 0.05), and can significantly improve the survival time of tumor-bearing mice.

Conclusion

Ultrasound-targeted microbubble destruction can effectively transfect HSV-TK gene into target tissues and play a significant inhibition effect on tumors, which provides a new strategy for gene therapy in liver cancer.     

The selective VEGFR1‐3 inhibitor axitinib (AG‐013736) shows antitumor activity in human neuroblastoma xenografts

Tumor angiogenesis in childhood neuroblastoma is an important prognostic factor suggesting a potential role for antiangiogenic agents in the treatment of high‐risk disease. Within the KidsCancerKinome project, we evaluated the new oral selective pan‐VEGFR tyrosine kinase inhibitor axitinib (AG‐013736) against neuroblastoma cell lines and the subcutaneous and orthotopic xenograft model IGR‐N91 derived from a primary bone marrow metastasis. Axitinib reduced cell proliferation in a dose‐dependent manner with IC₅₀ doses between 274 and >10,000 nmol/l. Oral treatment with 30 mg/kg BID for 2 weeks in advanced tumors yielded significant tumor growth delay, with a median time to reach five times initial tumor volume of 11.4 days compared to controls (p = 0.0006) and resulted in significant reduction in bioluminescence. Simultaneous inhibition of VEGFR downstream effector mTOR using rapamycin 20 mg/kg q2d×5 did not statistically enhance tumor growth delay compared to single agent activities. Axitinib downregulated VEGFR‐2 phosphorylation resulting in significantly decreased microvessel density (MVD) and overall surface fraction of tumor vessels (OSFV) in all xenografts as measured by CD34 immunohistochemical staining (mean MVD ± SD and OSFV at 14 days 21.27 ± 10.03 in treated tumors vs. 48.79 ± 17.27 in controls and 0.56% vs. 1.29%; p = 0.0006, respectively). We further explored the effects of axitinib on circulating mature endothelial cells (CECs) and endothelial progenitor cells (CEPs) measured by flow cytometry. While only transient modification was observed for CECs, CEP counts were significantly reduced during and up to 14 days after end of treatment. Axitinib has potent antiangiogenic properties that may warrant further evaluation in neuroblastoma.     

Combination of microbubbles and diagnostic ultrasound at a high mechanical index for the synergistic microwave ablation of tumours

Objectives: To determine whether combining microbubbles (MBs) with diagnostic ultrasound (US) at a high mechanical index (MI) could enhance the microwave (MW) ablation of tumours.

Materials and methods: Five therapeutic MW adjuvant protocols were studied: MW, MW?+?US, MW?+?US?+?MB, MW?+?US?+?NS (saline) and MW?+?MB. In 30 normal rabbit livers, the synergistic effects were evaluated via temperature, necrosis volume and histology. In 90 VX2 rabbit hepatic tumours, residual cells in the peripheral ablated tumours were examined via immunohistochemical assay and tumour growth. Additional 40 VX2 hepatic tumours were evaluated for ablation safety via blood assay and weight and for survival to 105 days. Results were compared using analysis of variance.

Results: Compared with the other protocols, the ablation volumes in normal rabbit livers were significantly larger using the MW?+?US?+?MB protocol (p?p?p?p?p?Conclusions: MBs in combination with diagnostic US at a high MI showed potential synergy in the MW ablation of tumours in rabbits.     

声动力联合热疗抗肿瘤机制及其在肿瘤中的应用

声动力疗法(SDT)是一种利用声敏剂和低强度超声(US)结合治疗恶性肿瘤的新型无创治疗方法,SDT由光动力疗法(PDT)发展而来.由于超声波相对于光在组织中的传输深度更深,且声敏剂经过诱导而具有靶向性,同时还能利用超声波对声敏剂进行实时监测,所以SDT在肿瘤部位定位和激活深部组织内的敏化剂方面有着显著的优势.因此,与P...     

Optical scattering as an early marker of apoptosis during chemotherapy and antiangiogenic therapy in murine models of prostate and breast cancer

Monitoring of the in vivo tumor state to track therapeutic response in real time may help to evaluate new drug candidates, maximize treatment efficacy, and reduce the burden of overtreatment. Current preclinical tumor imaging methods have largely focused on anatomic imaging (e.g., MRI, ultrasound), functional imaging (e.g., FDG-PET), and molecular imaging with exogenous contrast agents (e.g., fluorescence optical tomography). Here we utalize spatial frequency domain imaging (SFDI), a noninvasive, label-free optical technique, for the wide-field quantification of changes in tissue optical scattering in preclinical tumor models during treatment with chemotherapy and antiangiogenic agents. Optical scattering is particularly sensitive to tissue micro-architectural changes, including those that occur during apoptosis, an early indicator of response to cytotoxicity induced by chemotherapy, thermotherapy, cryotherapy, or radiation therapy. We utilized SFDI to monitor responses of PC3/2G7 prostate tumors and E0771 mammary tumors to treatment with cyclophosphamide or the antiangiogenic agent DC101 for up to 49 days. The SFDI-derived scattering amplitude was highly correlated with cleaved caspase-3, a marker of apoptosis (ρ_p = 0.75), while the exponent of the scattering wavelength-dependence correlated with the cell proliferation marker PCNA (ρ_p = 0.69). These optical parameters outperformed tumor volume and several functional parameters (e.g., oxygen saturation and hemoglobin concentration) as an early predictive biomarker of treatment response. Quantitative diffuse optical scattering is thus a promising new early marker of treatment response, which does not require radiation or exogenous contrast agents.     

Safety profile and tolerability of antiangiogenic agents in non-small-cell lung cancer

Recent advances in understanding the importance of angiogenesis to tumor growth and distant metastasis has driven the development of antiangiogenic therapies for the treatment of non-small-cell lung cancer (NSCLC). The anti-vascular endothelial growth factor (VEGF) monoclonal antibody, bevacizumab, is the only US Food and Drug Administration-approved antiangiogenic agent for advanced NSCLC. Accumulated safety data with bevacizumab in NSCLC shows that patients are at risk for hemorrhage, venous thromboembolism, hypertension, and proteinuria. Investigational agents that target VEGF via a different mechanism (such as aflibercept [VEGF Trap]) or simultaneously inhibit multiple molecular pathways involved in angiogenesis (ie, multitargeted tyrosine kinase inhibitors [TKIs]) and vascular disrupting agents (VDAs) that target existing tumor vasculature are in various stages of clinical development for NSCLC, and safety profiles are emerging for these classes of agents. This review describes the molecular rationale for targeting angiogenic pathways in anticancer therapy and summarizes safety and tolerability data from clinical trials of bevacizumab or aflibercept in combination with chemotherapy and the investigational TKIs and VDAs in patients who have advanced NSCLC.     

Antitumor effect of TNP-470, an angiogenesis inhibitor, combined with ultrasound irradiation for human uterine sarcoma xenografts evaluated using contrast color Doppler ultrasound

Microvascular endothelial cells, which are recruited by tumors, have become an important target in cancer therapy. This study firstly examined the antitumor effect of angiogenesis inhibitor combined with ultrasound (US) irradiation for human cancer in vivo and evaluated its vascularity using color Doppler US in real time with a microbubble US contrast agent. A human uterine sarcoma cell line, FU-MMT-1, was used in vivo because this tumor is one of the most malignant neoplasms of the human solid tumors and it also has a poor response to any of the chemotherapeutic agents currently used, as well as to radiotherapy. In angiogenic inhibitors, TNP-470 was selected to use in an in vivo study, because this agent showed a higher inhibitory effect in tube formation assay in vitro, than that of FR118487, or thalidomide. The FU-MMT-1 xenografts in nude mice were treated using US at a low-intensity (2.0 w/cm(2), 1MHZ) for 4 min three times per week each after the subcutaneous injection of TNP-470 (30 mg/kg), an angiogenesis inhibitor, and this treatment was continued for 8 weeks. Either treatment of US alone or TNP-470 alone showed a suppression of tumor growth, in comparison to the non-treatment group (control), and a significantly enhanced effect was obtained using the combined treatment. A reduction in the intratumoral vascularity, which was evaluated using both color Doppler and immunohistochemistry, was significantly demonstrated using the combined treatment, in comparison to each treatment alone, and the control. No side-effect was observed in any mice in the combined treatment group. These results suggest that the antitumor effect of TNP-470 for uterine sarcoma was accelerated by US irradiation in vivo and this combination might be a potentially effective for new cancer therapy.     

Sequential use of vinorelbine followed by gefitinib enhances the antitumor effect in NSCLC cell lines poorly responsive to reversible EGFR tyrosine kinase inhibitors

Preclinical studies have suggested that combining cytotoxic agents with epidermal growth factor receptor tyrosine kinase inhibitors (EGFR‐TKIs) to treat EGFR‐mutated tumors may increase their inhibitory effect depending on the order of drug administration. The antitumor efficacy of different treatment sequences using vinorelbine (VNB) and gefitinib (GEF) was investigated both in vitro and in vivo in non‐small cell lung cancer (NSCLC) cell lines with the rationale of potentially translating these findings into the clinical setting. The EGFR‐wild‐type A549 and the EGFR‐mutated (exon 21 L858R/exon 20 T790M) H1975 cell lines were treated as follows: GEF followed by VNB, VNB followed by GEF and the two drugs applied individually or concurrently. Results in vitro demonstrated that the sequence of VNB followed by GEF was significantly more active than single‐agent treatments. The expression of activated EGFR and its downstream pathway genes indicated that the increased cytotoxic effect of the VNB and GEF treatment sequence was accompanied by inhibition of EGFR, AKT and ERK1/2. Moreover, the increased inhibition of tumor growth after treatment with VNB followed by GEF was also confirmed in CD1‐nude mice that were xenotransplanted with H1975 cells (p < 0.0001). This effect was paralleled by a corresponding decrease in cancer glucose consumption, as assessed by micro‐positron emission tomography scans (p < 0.05). These preclinical findings in NSCLC cell lines, which are poorly responsive to EGFR‐TKIs, demonstrated that the sequential treatment of VNB followed by GEF induced a significant antitumor effect, which supports the translation of this treatment schedule into a clinical setting.     

超声微泡造影剂增强TRAIL基因转染肝癌细胞的实验研究

目的 探讨采用超声辐照联合微泡造影剂增强重组表达质粒plRES-EGFP-sTRAIL转染肝癌细胞的有效性.方法 构建携带肿瘤坏死因子相关细胞凋亡诱导配体(TRAIL)基因及绿色荧光蛋白(GFP)的真核表达质粒pIBES-EGEP-sTRAIL,转染肝癌细胞HepG2,分为超声辐照联合微泡造影剂转染组、脂质体转染组、单纯微泡造影剂转染组及对照组.荧光显微镜检测GFP以评价转染效率,四甲基偶氮唑盐微量酶反应比色法(MTT)检测细胞生长抑制率,Hoechst33258荧光染色观察细胞形态变化,流式细胞术检测细胞凋亡率,Western blot检测TRAIL凋亡途径中关键凋亡分子caspase-8和caspase-3的蛋白变化.结果 超声辐照联合微泡造影剂可增强pIREs-EGFP-sTRAIL有效转染HepG2细胞,其转染效率与脂质体转染组、单纯微泡造影剂组及对照组比较差异均有统计学意义(P<0.05);携带sTRAIL基因的表达质粒能够激活caspase通路,促进肝癌细胞凋亡,有效抑制肝癌细胞生长.结论 构建的真核表达载体pIRES-EGFP-sTRAIL在肝癌细胞中能有效表达,联合超声微泡造影剂及低强度超声,可显著增强sTRAIL对肝癌细胞的增殖抑制及诱导凋亡作用.     

The Potential of Combined Immunotherapy and Antiangiogenesis for the Synergistic Treatment of Advanced NSCLC

Over the past few years, there have been considerable advances in the treatments available to patients with metastatic or locally advanced NSCLC, particularly those who have progressed during first-line treatment. Some of the treatment options available to patients are discussed here, with a focus on checkpoint inhibitor immunotherapies (nivolumab and pembrolizumab) and antiangiogenic agents (bevacizumab, ramucirumab, and nintedanib). It is hypothesized that combining immunotherapy with antiangiogenic treatment may have a synergistic effect and enhance the efficacy of both treatments. In this review, we explore the theory and potential of this novel treatment option for patients with advanced NSCLC. We discuss the growing body of evidence that proangiogenic factors can modulate the immune response (both by reducing T-cell infiltration into the tumor microenvironment and through systemic effects on immune-regulatory cell function), and we examine the preclinical evidence for combining these treatments. Potential challenges are also considered, and we review the preliminary evidence of clinical efficacy and safety with this novel combination in a variety of solid tumor types.     

The triterpenoid cucurbitacin B augments the antiproliferative activity of chemotherapy in human breast cancer

Despite recent advances in therapy, breast cancer remains the second most common cause of death from malignancy in women. Chemotherapy plays a major role in breast cancer management, and combining chemotherapeutic agents with nonchemotherapeutic agents is of considerable clinical interest. Cucurbitacins are triterpenes compounds found in plants of the Cucurbitaceae family, reported to have anticancer and anti‐inflammatory activities. Previously, we have shown antiproliferative activity of cucurbitacin B (CuB) in breast cancer, and we hypothesized that combining CuB with chemotherapeutic agents can augment their antitumor effect. Here, we show that a combination of CuB with either docetaxel (DOC) or gemcitabine (GEM) synergistically inhibited the proliferation of MDA‐MB‐231 breast cancer cells in vitro. This antiproliferative effect was accompanied by an increase in apoptosis rates. Furthermore, in vivo treatment of human breast cancer orthotopic xenografts in immunodeficient mice with CuB at either low (0.5 mg/kg) or high (1 mg/kg) doses in combination with either DOC (20 mg/kg) or GEM (12.5mg/kg) significantly reduced tumor volume as compared with monotherapy of each drug. Importantly, no significant toxicity was noted with low‐dose CuB in combination with either DOC or GEM. In conclusion, combination of CuB at a relatively low concentration with either of the chemotherapeutic agents, DOC or GEM, shows prominent antiproliferative activity against breast cancer cells without increased toxicity. This promising combination should be examined in therapeutic trials of breast cancer.     

Disparate effects of endostatin on tumor vascular perfusion and hypoxia in two murine mammary carcinomas

PURPOSE: Recent results in the literature have demonstrated that the antiangiogenic agent endostatin can enhance antitumor effects when administered before or during radiotherapy. To better understand the underlying pathophysiologic basis for this radiosensitization, the current study investigated whether short-term endostatin administration is linked to alterations in tumor vascular perfusion and oxygen delivery. METHODS AND MATERIALS: Three daily doses of recombinant endostatin (20 mg/kg) were administered to two murine mammary carcinomas, the highly vascularized MCa-35 and the less vascularized MCa-4. Image analysis techniques were used to quantify (1) total and perfused vascular spacing, and (2) changes in tumor hypoxia as a function of distance from the nearest blood vessel. RESULTS: In MCa-35 tumors, endostatin had no effect on vessel spacing, tumor hypoxia, or tumor growth. In MCa-4 tumors, total and perfused vessel spacings were also unchanged, but tumor growth was inhibited, and tumor hypoxia significantly decreased. These tumors demonstrated an increased vascular functionality suggestive of an increase in the number of intermittently perfused vessels, without corresponding alterations in tumor oxygen consumption rate. CONCLUSIONS: Poorly vascularized, hypoxic mammary carcinomas were much more responsive to short-term endostatin treatment than well-vascularized, more homogeneously oxygenated tumors. Oxygen levels in the responsive tumors were transiently improved after treatment, which could have substantial implications with respect to the therapeutic effectiveness of combining antiangiogenic agents with conventional therapies.     

Low‐intensity ultrasound and microbubbles enhance the antitumor effect of cisplatin

Cell permeabilization using microbubbles (MB) and low‐intensity ultrasound (US) have the potential for delivering molecules into the cytoplasm. The collapsing MB and cavitation bubbles created by this collapse generate impulsive pressures that cause transient membrane permeability, allowing exogenous molecules to enter the cells. To evaluate this methodology in vitro and in vivo, we investigated the effects of low‐intensity 1‐MHz pulsed US and MB combined with cis‐diamminedichloroplatinum (II) (CDDP) on two cell lines (Colon 26 murine colon carcinoma and EMT6 murine mammary carcinoma) in vitro and in vivo on severe combined immunodeficient mice inoculated with HT29‐luc human colon carcinoma. To investigate in vitro the efficiency of molecular delivery by the US and MB method, calcein molecules with a molecular weight in the same range as that of CDDP were used as fluorescent markers. Fluorescence measurement revealed that approximately 10⁶–10⁷ calcein molecules per cell were internalized. US–MB‐mediated delivery of CDDP in Colon 26 and EMT6 cells increased cytotoxicity in a dose‐dependent manner and induced apoptosis (nuclear condensation and fragmentation, and increase in caspase‐3 activity). In vivo experiments with xenografts (HT29‐luc) revealed a very significant reduction in tumor volume in mice treated with CDDP + US + MB compared with those in the US + CDDP groups for two different concentrations of CDDP. This finding suggests that the US–MB method combined with chemotherapy has clinical potential in cancer therapy. (Cancer Sci 2008; 99: 2525–2531)     

Antiangiogenic agents potentiate cytotoxic cancer therapies against primary and metastatic disease.

The formation of a blood supply (angiogenesis) is critical to the growth of solid tumors. The naturally occurring steroid tetrahydrocortisol, the synthetic cyclodextrin derivative beta-cyclodextrin tetradecasulfate, and the tetracycline derivative minocycline have antiangiogenic activity. Tetrahydrocortisol and beta-cyclodextrin tetradecasulfate in a 1:1 molar ratio by continuous infusion over 14 days and minocycline administered i.p. over 14 days from day 4 to day 18 postimplantation of the Lewis lung carcinoma significantly increased the growth delay of the primary tumor after treatment with cis-diamminedichloroplatinum(II), melphalan, cyclophosphamide, Adriamycin, bleomycin, and radiation therapy administered in standard regimens. Addition of the antiangiogenic agents to treatment with the cytotoxic therapies not only reduced the number of lung metastases formed from the primary tumor but also reduced the number of large metastases. Five of 12 animals treated with the antiangiogenic modulators and cyclophosphamide were long-term survivors (> 120 days). Thus, antiangiogenic therapies can potentiate the efficacy of standard anticancer therapies.     

Influence of soluble or matrix‐bound isoforms of vascular endothelial growth factor‐A on tumor response to vascular‐targeted strategies

Antiangiogenic therapy based on blocking the actions of vascular endothelial growth factor‐A (VEGF) can lead to “normalization” of blood vessels in both animal and human tumors. Differential expression of VEGF isoforms affects tumor vascular maturity, which could influence the normalization process and response to subsequent treatment. Fibrosarcoma cells expressing only VEGF120 or VEGF188 isoforms were implanted either subcutaneously (s.c.) or in dorsal skin‐fold “window” chambers in SCID mice. VEGF120 was associated with vascular fragility and hemorrhage. Tumor‐bearing mice were treated with repeat doses of SU5416, an indolinone receptor tyrosine kinase inhibitor with activity against VEGFR‐2 and proven preclinical ability to induce tumor vascular normalization. SU5416 reduced vascularization in s.c. implants of both VEGF120 and VEGF188 tumors. However, in the window chamber, SU5416 treatment increased red cell velocity in VEGF120 (representing vascular normalization) but not VEGF188 tumors. SU5416 treatment had no effect on growth or necrosis levels in either tumor type but tended to counteract the increase in interstitial fluid pressure seen with growth of VEGF120 tumors. SU5416 pretreatment resulted in the normally fragile blood vessels in VEGF120‐expressing tumors becoming resistant to the vascular damaging effects of the tubulin‐binding vascular disrupting agent (VDA), combretastatin A4 3‐O‐phosphate (CA4P). Thus, vascular normalization induced by antiangiogenic treatment can reduce the efficacy of subsequent VDA treatment. Expression of VEGF120 made tumors particularly susceptible to vascular normalization by SU5416, which in turn made them resistant to CA4P. Therefore, VEGF isoform expression may be useful for predicting response to both antiangiogenic and vascular‐disrupting therapy.     

SonoVue 微泡瞬时均一性对新型绒癌细胞靶向造影剂结合特性的影响

背景与目的:超声微泡造影剂是目前的研究热点,通过其可提高超声扫描对肿瘤血管的检出率,但缺乏组织特异性.本研究目的是探讨在制备靶向造影剂之前SonoVue微泡瞬时均一性对绒癌细胞(choriocarcinoma cell, JAR)靶向造影剂的体外结合特性、结合率及稳定性的影响,为临床研究肿瘤细胞抗原的超声靶向定位显像、提高肿瘤的早期诊断率奠定基础.方法:研究分为微泡不均匀组(n=10),微泡均匀组(n=10),小微泡组(n=10) 3组;主要检测花环形成率、流式细胞计数及花环结合形态等.用均一性不同的SonoVue微泡与兔抗人绒毛膜促性腺激素(human chorionic gonadotrophin, HCG)抗体作用制成靶向造影剂,然后分别与绒癌细胞作用,比较各组的结合率及冲洗前后的结合率.结果:各组中不均一组的靶向造影剂微泡与绒癌细胞的结合率为(60.4±1.5)%,低于微泡均匀组及小微泡组[(84.3±5.5)%和(90.6±6.8)%],差异有统计学意义(P<0.05).冲洗前后比较,微泡均匀组靶向微泡与贴壁生长的绒癌细胞结合率变化最小,冲洗后结合率为(82.4±3.7)%(P>0.05).流式细胞检测结果显示:微泡不均匀组、微泡均匀组、小微泡组悬液中结合了荧光标记的靶向造影剂微泡与绒癌细胞的结合率分别为72.9%、81.03%、88.5%,3组间差异有统计学意义(P<0.05).结论:在体外制备靶向造影剂之前,SonoVu微泡瞬时均一性对绒癌细胞靶向造影剂微泡与绒癌细胞特异性结合能力有明显影响,而SonoVue微泡的均一性与适度振荡有关,SonoVue微泡瞬时不均一性直接影响靶向特异性结合率的数量.通过改善SonoVue微泡的均一性可望提高靶向造影剂结合率及靶向微泡稳定性,改善显影.     

Bystander killing effect of DS‐8201a,a novel anti‐human epidermal growth factor receptor 2 antibody–drug conjugate,in tumors with human epidermal growth factor receptor 2 heterogeneity

Antibody–drug conjugates deliver anticancer agents selectively and efficiently to tumor tissue and have significant antitumor efficacy with a wide therapeutic window. DS‐8201a is a human epidermal growth factor receptor 2 (HER2)‐targeting antibody–drug conjugate prepared using a novel linker‐payload system with a potent topoisomerase I inhibitor, exatecan derivative (DX‐8951 derivative, DXd). It was effective against trastuzumab emtansine (T‐DM1)‐insensitive patient‐derived xenograft models with both high and low HER2 expression. In this study, the bystander killing effect of DS‐8201a was evaluated and compared with that of T‐DM1. We confirmed that the payload of DS‐8201a, DXd (1), was highly membrane‐permeable whereas that of T‐DM1, Lys‐SMCC‐DM1, had a low level of permeability. Under a coculture condition of HER2‐positive KPL‐4 cells and negative MDA‐MB‐468 cells in vitro, DS‐8201a killed both cells, whereas T‐DM1 and an antibody–drug conjugate with a low permeable payload, anti‐HER2‐DXd (2), did not. In vivo evaluation was carried out using mice inoculated with a mixture of HER2‐positive NCI‐N87 cells and HER2‐negative MDA‐MB‐468‐Luc cells by using an in vivo imaging system. In vivo, DS‐8201a reduced the luciferase signal of the mice, indicating suppression of the MDA‐MB‐468‐Luc population; however, T‐DM1 and anti‐HER2‐DXd (2) did not. Furthermore, it was confirmed that DS‐8201a was not effective against MDA‐MB‐468‐Luc tumors inoculated at the opposite side of the NCI‐N87 tumor, suggesting that the bystander killing effect of DS‐8201a is observed only in cells neighboring HER2‐positive cells, indicating low concern in terms of systemic toxicity. These results indicated that DS‐8201a has a potent bystander effect due to a highly membrane‐permeable payload and is beneficial in treating tumors with HER2 heterogeneity that are unresponsive to T‐DM1.