Characterization of patients with advanced pancreatic cancer and high serum interleukin-6 levels.

OBJECTIVES: High serum level of interleukin 6 (IL-6) is associated with high degree of tumor progression and systemic weakness. Anti-IL-6 therapy possibly improves the deterioration of clinical characteristics in patients with high IL-6 level. However, IL-6-related factors in patients with treatment-naive advanced pancreatic cancer (PC) have not been established. The goal of this study was to identify IL-6-related factors in patients with advanced PC who were scheduled to undergo first-line chemotherapy. METHODS: Patients with treatment-naive advanced PC were eligible for inclusion in this study. Patients who did not receive first-line chemotherapy were excluded. Serum IL-6 levels and clinical parameters were prospectively recorded. Analyses were performed to identify risk factors for high IL-6 levels. RESULTS: Eighty patients were analyzed. IL-6-related factors were advanced age (P < 0.01), the presence of liver metastasis (P < 0.01), the large volume of liver metastasis (P < 0.01), severe fatigue (P = 0.02), high carcinoembryonic antigen levels (P = 0.02), anemia (P < 0.01), and high C-reactive protein levels (P = 0.02) in multivariate analyses. Decreased skeletal muscle mass tended to be associated with high IL-6 levels. CONCLUSIONS: High serum IL-6 was related to advanced age, the presence of hepatic metastasis, large tumor burden in liver, severe fatigue, high carcinoembryonic antigen, high C-reactive protein, and anemia in patients with treatment-naive advanced PC.

Challenges and opportunities in designing clinical trials for neuromyelitis optica.

Current management of neuromyelitis optica (NMO) is noncurative and only partially effective. Immunosuppressive or immunomodulatory agents are the mainstays of maintenance treatment. Safer, better-tolerated, and proven effective treatments are needed. The perceived rarity of NMO has impeded clinical trials for this disease. However, a diagnostic biomarker and recognition of a wider spectrum of NMO presentations has expanded the patient population from which study candidates might be recruited. Emerging insights into the pathogenesis of NMO have provided rationale for exploring new therapeutic targets. Academic, pharmaceutical, and regulatory communities are increasingly interested in meeting the unmet needs of patients with NMO. Clinical trials powered to yield unambiguous outcomes and designed to facilitate rapid evaluation of an expanding pipeline of experimental agents are needed. NMO-related disability occurs incrementally as a result of attacks; thus, limiting attack frequency and severity are critical treatment goals. Yet, the severity of NMO and perception that currently available agents are effective pose challenges to study design. We propose strategies for NMO clinical trials to evaluate agents targeting recovery from acute attacks and prevention of relapses, the 2 primary goals of NMO treatment. Aligning the interests of all stakeholders is an essential step to this end.

Increased mobilization of c-kit+ Sca-1+ Lin- (KSL) cells and colony-forming units in spleen (CFU-S) following de novo formation of a stem cell niche depends on dynamic, but not stable, membranous ossification.

Stem cells are thought to inhabit in a unique microenvironment, known as "niche," in which they undergo asymmetric cell divisions that results in reproducing both stem cells and progenies to maintain various tissues throughout life. The cells of osteoblastic lineage have been identified as a key participant in regulating the number of hematopoietic stem cells (HSCs). HSCs receive their regulatory messages from the microenvironment in the bone marrow. This would account for a reason why the localization of hematopoiesis is usually restricted in the bone marrow. To clarify the above possibility we employed a cell implantation-based strategy with a unique osteoblast cell line (KUSA-A1) derived from a C3H/He mouse. The implantation of KUSA-A 1 cells resulted in the generation of ectopic bones in the subcutaneous tissues of the athymic BALB/c nu/nu mice. Subsequently the mice obtained a greater amount of the bone marrow than normal mice, and they showed an increased number of HSCs. These results indicate that the newly generated osteoblasts-derived ectopic bones are responsible for the increase in the number of the HSC population. Furthermore, the increased number of HSCs directly correlates with both the magnitude of dynamic osteogenic process and the size of the newly generated bone or "niche."

[Calcium and vitamin D for the treatment of osteoporosis].

Clinical studies conducted in US or European countries have revealed that supplement of calcium and vitamin D brocks the decrease in bone mass and the frequency of fractures among aged osteoporosis patients and that nutritional sufficiency is closely related to the severity of osteoporotic symtonis. It might be important to evaluate the nutritional status in Japan as well. On the other hand, active vitamin D drugs are useful to treating osteoporosis with their anti-catabolic and anti-fracture activities. As animal experiments showed that bone effect could be separable from calcemic effect, novel vitamin D derivative with bone directing activities is eagerly expected.

Vitamin D hormone inhibits osteoclastogenesis in vivo by decreasing the pool of osteoclast precursors in bone marrow.

Previous observations that vitamin D hormone induces the expression of the receptor activator of nuclear factor kappaB (NF-kappaB) ligand (RANKL), thereby stimulating osteoclastogenesis in vitro, led to the widespread belief that 1alpha,25-dihydroxyvitamin D3 [1a,25(OH)2D3] is a bone-resorbing hormone. Here, we show that alfacalcidol, a prodrug metabolized to 1alpha,25(OH)2D3, suppresses bone resorption at pharmacologic doses that maintain normocalcemia in an ovariectomized (OVX) mouse model of osteoporosis. Treatment of OVX mice with pharmacologic doses of alfacalcidol does not increase RANKL expression, whereas toxic doses that cause hypercalcemia markedly reduce the expression of RANKL. When bone marrow (BM) cells from OVX mice were cultured with sufficient amounts of macrophage colony-stimulating factor (M-CSF) and RANKL, osteoclastogenic activity was higher than in sham mice. Marrow cultures from alfacalcidol- or estrogen-treated OVX mice showed significantly less osteoclastogenic potential compared with those from vehicle-treated OVX mice, suggesting that the pool of osteoclast progenitors in the marrow of vitamin D-treated mice as well as estrogen-treated mice was decreased. Frequency analysis showed that the number of osteoclast progenitors in bone marrow was increased by OVX and decreased by in vivo treatment with alfacalcidol or estrogen. We conclude that the pharmacologic action of active vitamin D in vivo is to decrease the pool of osteoclast progenitors in BM, thereby inhibiting bone resorption. Because of its unusual activity of maintaining bone formation while suppressing bone resorption, in contrast to estrogens that depress both processes, vitamin D hormone and its bone-selective analogs may be useful for the management of osteoporosis.