Hyaluronidase induces a transcapillary pressure gradient and improves the distribution and uptake of liposomal doxorubicin (Caelyx™) in human osteosarcoma xenografts

Liposomal drug delivery enhances the tumour selective localisation and may improve the uptake compared to free drug. However, the drug distribution within the tumour tissue may still be heterogeneous. Degradation of the extracellular matrix is assumed to improve the uptake and penetration of drugs. The effect of the ECM-degrading enzyme hyaluronidase on interstitial fluid pressure and microvascular pressure were measured in human osteosarcoma xenografts by the wick-in-needle and micropipette technique, respectively. The tumour uptake and distribution of liposomal doxorubicin were studied on tumour sections by confocal laser scanning microscopy. The drugs were injected i.v. 1 h after the hyaluronidase pretreatment. Intratumoral injection of hyaluronidase reduced interstitial fluid pressure in a nonlinear dose-dependent manner. Maximum interstitial fluid pressure reduction of approximately 50% was found after injection of 1500 U hyaluronidase. Neither intratumoral nor i.v. injection of hyaluronidase induced any changes in the microvascular pressure. Thus, hyaluronidase induced a transcapillary pressure gradient, resulting in a four-fold increase in the tumour uptake and improving the distribution of the liposomal doxorubicin. Hyaluronidase reduces a major barrier for drug delivery by inducing a transcapillary pressure gradient, and administration of hyaluronidase adjuvant with liposomal doxorubicin may thus improve the therapeutic outcome

Seroprevalence of parvovirus B19 NS1-specific IgG in B19-infected and uninfected individuals and in infected pregnant women

Parvovirus B19 is the causative agent of erythema infectiosum in children, but the virus is associated with an increasing range of different diseases. These include acute and chronic arthritis, hydrops fetalis in pregnant women, aplastic anemia, and thrombocytopenia. The host's immune response is directed against the viral structural proteins VP1 and VP2. This study investigated the presence of IgG against the viral nonstructural protein NS1 using Western blot. Serum panels from healthy individuals, B19-infected pregnant women, and various disease groups were tested. The disease groups included patients with symptoms that may be linked to parvovirus B19 infection. The results showed that IgG against the NS1 protein was present in 22% of healthy individuals with past B19 infection. In cases of persistent or prolonged B19 infections, the prevalence of NS1-specific antibodies was as high as 80%. It is concluded that NS1-specific IgG may be used as an indicator of chronic or more severe courses of parvovirus B19 infections

Hyaluronidase significantly enhances the efficacy of regional vinblastine chemotherapy of malignant melanoma

The regional chemotherapy of the human malignant melanomas (SK-MEL-2, -3, -5, -24) implanted in NMRI nu/nu mice with a combination of the hyaluronic-acid-cleaving enzyme hyaluronidase (HYase) and vinblastine is a very effective therapeutic procedure. In three out of four melanoma models (SK-MEL-2, -3, -5) the weekly peritumoral administration of high-dose HYase (100,000 IU/kg) 4 h prior to the injection of 0.3 mg/kg vinblastine in the vicinity of the tumor (seven weekly therapeutic cycles) caused marked antitumor effects, while HYase and vinblastine were inactive when given alone. The pretreatment with HYase, which is well tolerated by the test animals, prevented local inflammation reactions commonly seen after subcutaneous vinblastine administration. Tumor growth and metastatic behavior of the melanomas used were neither increased nor reduced by HYase after peritumoral administration without subsequent vinblastine injection. The curative activity of the regional chemotherapy with HYase/vinblastine could be demonstrated on the SK-Mel-3 melanoma. After an observation time of 18 weeks, tumor cells could no longer be detected in the subcutaneous region of the former lesion. Only macrophages, which had abundantly incorporated melanin, gave evidence of previously growing tumors. In contrast to the controls, no metastases could be observed in the axillary lymph nodes of the test animals

From transformation to metastasis: deconstructing the extracellular matrix in breast cancer

The extracellular matrix (ECM) is a guiding force that regulates various developmental stages of the breast. In addition to providing structural support for the cells, it mediates epithelial-stromal communication and provides cues for cell survival, proliferation, and differentiation. Perturbations in ECM architecture profoundly influence breast tumor progression and metastasis. Understanding how a dysregulated ECM can facilitate malignant transformation is crucial to designing treatments to effectively target the tumor microenvironment. Here, we address the contribution of ECM mechanics to breast cancer progression, metastasis, and treatment resistance and discuss potential therapeutic strategies targeting the ECM