Regulation of stem cell differentiation by histone methyltransferases and demethylases.

The generation of different cell types from stem cells containing identical genetic information and their organization into tissues and organs during development is a highly complex process that requires defined transcriptional programs. Maintenance of such programs is epigenetically regulated and the factors involved in these processes are often essential for development. The activities required for cell-fate decisions are frequently deregulated in human tumors, and the elucidation of the molecular mechanisms that regulate these processes is therefore important for understanding both developmental processes and tumorigenesis.

Sex hormones in the regulation of bone and cartilage metabolism: an old paradigm and a new challenge.

The effects of estrogen on tissues such as bone, endometrium and breast have been extensively studied, and the pleitropic effects of the female sex hormone are well established. Cartilage is not generally viewed as an estrogen responsive tissue. However, several epidemiological studies, and a few recent intervention studies supports that estrogen may have a role in osteoarthritis (OA), and recent animal studies further suggests that estrogen may be involved in regulation of cartilage turnover. Accordingly the issue of chondroprotrective properties of estrogen has received increased attention in recent scientific publications. In this review, we summarize current studies indicating a role for estrogen in the regulation of cartilage turnover and development of joint diseases. We report results from in vitro and animal studies where the effects of ovariectomy and treatment with estrogen and selective estrogen receptor modulators (SERM) on cartilage erosion have been evaluated. Furthermore, we report results from assessment of the effects of estrogen and SERM in postmenopausal women which shed new light on the interactions between estrogen and joint tissues. It still remains to be established whether estrogen or SERM could find a role in prophylaxis and/or treatment of OA, and much work lies ahead. Current data reviewed in this manuscript can be considered encouraging and they raise the hope that new treatment options for OA may become available based on estrogen and, in particular, compounds acting through the estrogen receptor. However, at present hormone replacement therapy and SERMs available in clinical practice, cannot be recommended as a therapy for arthritic disease.

Investigation of bone disease using isomerized and racemized fragments of type I collagen.

In the collagen type I C-telopeptide an aspartyl-glycine site within the sequence AHDGGR is susceptible to molecular rearrangement. In newly synthesized collagen this site is in the native form, denoted alpha L. During aging a spontaneous reaction occurs resulting in three age-modified forms: an isomerized form (beta L) a racemized form (alpha D), and an isomerized/racemized form (beta D). In this study, we measured the urinary excretion of the four forms of C-telopeptides (CTX) in healthy adults and in patients with bone diseases. Levels of all CTX forms were higher in healthy postmenopausal women (P<0.001) compared with premenopausal controls. Levels decreased within 3 days of bisphosphonate treatment indicating that all CTX forms reflect bone resorption. In hyperthyroidism, characterized by a generalized increased bone turnover, native (alpha L) and age-modified (beta L, alpha D and beta D) forms increased to a similar extent compared to controls, resulting in normal ratios between the alpha L and age-modified forms of CTX. Conversely, in Paget's disease and prostate cancer-induced bone metastases, conditions characterized by focal increased bone turnover, alpha L CTX levels were more elevated than those of age-related CTX forms, resulting in increased ratios between native and age-modified CTX. For example, the ratio alpha L/alpha D was increased 7-fold in Paget's disease (P<0.001) and 2-fold in prostate cancer-induced bone metastases (P<0.002). In conclusion, the study suggests that in conditions with a localized alteration in bone turnover the ratio between alpha L CTX and the age-modified forms is significantly elevated. This may provide a new diagnostic and monitoring tool for diseases such as metastatic bone cancer and Paget's disease.

Effect of bisphosphonates on cartilage turnover assessed with a newly developed assay for collagen type II degradation products.

BACKGROUND: Animal studies of arthritis have suggested that bisphosphonates may have chondroprotective abilities. OBJECTIVE: To evaluate the effect of bisphosphonate treatment on cartilage degradation. METHODS: Type II collagen is almost exclusively localised in cartilage, where it is the major structural component of the tissue. Hence fragments derived from this protein should represent a specific index for cartilage degradation. The urinary concentration of collagen type II C-telopeptide degradation products (CTX-II) was measured by a new immunoassay (enzyme linked immunosorbent assay (ELISA)). The serum concentration of collagen type I C-telopeptide degradation products (CTX-I), a marker of bone degradation, was also measured by ELISA. PARTICIPANTS: Two groups were studied. The alendronate group included 63 healthy postmenopausal women aged 45-54 randomly allocated to receive three years' treatment with 1 mg, 5 mg, 10 mg, or 20 mg alendronate daily or placebo. In the third year the women receiving 20 mg were switched to placebo. The ibandronate group included 119 women at least 10 years after the menopause aged <75 randomly allocated to receive 12 months' treatment with 0.25 mg, 0.5 mg, 1.0 mg, 2.5 mg, or 5 mg ibandronate daily or placebo followed by 12 months without treatment. RESULTS: 20 mg of alendronate and 2.5 and 5 mg of ibandronate treatment produced significant decreases in urinary CTX-II to about 50% of baseline. The level reached after three months of treatment remained practically constant during the following 12-36 treatment months. When treatment was withdrawn CTX-II values returned towards baseline. Serum CTX-I also decreased rapidly within three months, but to a level of about 30% of baseline. CONCLUSIONS: The urinary excretion of CTX-II, a new marker of cartilage degradation, decreases significantly in response to bisphosphonate. This suggests that bisphosphonates may have chondroprotective effects in humans. By measurement of CTX-II it should be possible to monitor the effects of drugs that potentially inhibit cartilage destruction.