Treatment with non-hypercalcemic analogs of 1,25-dihydroxyvitamin D3 increases responsiveness to 17β-estradiol, dihydrotestosterone or raloxifene in primary human osteoblasts

“…The increased responsiveness to estrogens after pretreatment with Vitamin D, previously demonstrated in skeletal-derived cells in vitro [9] was demonstrated as well in primary human bone cells, apparently due to modulation of ERs [8]. All forms of ERs were modulated significantly by JKF treatment except the 67k ER␣ in post-menopausal women.…”

“…In post-menopausal bone cells, the increase of 32k ER␣ was 2.7-fold, with no change in 67k ER␣. Both 37 and 63k ER␤ forms, were increased by 11-and 4-fold, respectively [8].…”

“…This marker can be used to measure the response to of E 2 in cells containing low concentrations of E 2 receptors (ERs) [5,6]. We found that pretreatment with the demonstrably non hypercalcemic Vitamin D analog JKF 1624 F2-2 (JKF) [7] upregulated responsiveness and sensitivity to E 2 in human bone derived cell cultures as measured by the stimulation of CK [8]. This increase was accompanied by an increase in estrogen receptors [9].…”

Modulation of response to estrogens in cultured human female bone cells by a non-calcemic Vitamin D analog: changes in nuclear and membranal binding

“…The increased responsiveness to estrogens after pretreatment with Vitamin D, previously demonstrated in skeletal-derived cells in vitro [9] was demonstrated as well in primary human bone cells, apparently due to modulation of ERs [8]. All forms of ERs were modulated significantly by JKF treatment except the 67k ER␣ in post-menopausal women.…”

“…In post-menopausal bone cells, the increase of 32k ER␣ was 2.7-fold, with no change in 67k ER␣. Both 37 and 63k ER␤ forms, were increased by 11-and 4-fold, respectively [8].…”

“…This marker can be used to measure the response to of E 2 in cells containing low concentrations of E 2 receptors (ERs) [5,6]. We found that pretreatment with the demonstrably non hypercalcemic Vitamin D analog JKF 1624 F2-2 (JKF) [7] upregulated responsiveness and sensitivity to E 2 in human bone derived cell cultures as measured by the stimulation of CK [8]. This increase was accompanied by an increase in estrogen receptors [9].…”

Modulation of response to estrogens in cultured human female bone cells by a non-calcemic Vitamin D analog: changes in nuclear and membranal binding

“…This finding also complements our previous findings in human vascular smooth muscle cells in vitro, in which pretreatment with the Vitamin D JKF increased both ER␣ mRNA and protein expression [8]. These results also resemble observations in cultured human bone cells, in which pretreatment with JKF or CB significantly up regulated the response to E 2 in all female-derived cells and to DHT in mature male-derived cells [22][23]. Vitamin D was also reported to induce ER␣ expression in two prostate cancer cell lines [24].…”

Less calcemic Vitamin D analogs enhance creatine kinase specific activity and modulate responsiveness to gonadal steroids in the vasculature

“…However, the use of Vitamin D, is restricted by its hypercalcemic effects [25]. We reported that multiple treatments with "less-calcemic" analogs of Vitamin D, particularly JKF 1624 F2-2 [26] stimulated the specific activity of CK in ROS 17/2.8 osteoblast-like cells [27,28]. Pre-treatment of skeletal-derived cells with these analogs, upregulated both responsiveness and sensitivity to E 2 [27].…”

Responsiveness to phytoestrogens in primary human osteoblasts is modulated differentially by a “less-calcemic” analog of 1,25 dihydroxyvitamin D3: JK 1624F2-2 (JKF)