Category Archives: MK-4

Vitamin K2 (menatetrenone) effectively prevents fractures and sustains lumbar bone mineral density in osteoporosis.

Abstract

Vitamin K2 (menatetrenone) effectively prevents fractures and sustains lumbar bone mineral density in osteoporosis.

We attempted to investigate whether vitamin K2 (menatetrenone) treatment effectively prevents the incidence of new fractures in osteoporosis. A total of 241 osteoporotic patients were enrolled in a 24-month randomized open label study. The control group (without treatment; n = 121) and the vitamin K2-treated group (n = 120), which received 45 mg/day orally vitamin K2, were followed for lumbar bone mineral density (LBMD; measured by dual-energy X-ray absorptiometry [DXA]) and occurrence of new clinical fractures. Serum level of Glu-osteocalcin (Glu-OC) and menaquinone-4 levels were measured at the end of the follow-up period. Serum level of OC and urinary excretion of deoxypyridinoline (DPD) were measured before and after the treatment. The background data of these two groups were identical. The incidence of clinical fractures during the 2 years of treatment in the control was higher than the vitamin K2-treated group (chi2 = 10.935; p = 0.0273). The percentages of change from the initial value of LBMD at 6, 12, and 24 months after the initiation of the study were -1.8 +/- 0.6%, -2.4 +/- 0.7%, and -3.3 +/- 0.8% for the control group, and 1.4 +/- 0.7%, -0.1 +/- 0.6%, and -0.5 +/- 1.0% for the vitamin K2-treated group, respectively. The changes in LBMD at each time point were significantly different between the control and the treated group (p = 0.0010 for 6 months, p = 0.0153 for 12 months, and p = 0.0339 for 24 months). The serum levels of Glu-OC at the end of the observation period in the control and the treated group were 3.0 +/- 0.3 ng/ml and 1.6 +/- 0.1 ng/ml, respectively (p < 0.0001), while the serum level of OC measured by the conventional radioimmunoassay (RIA) showed a significant rise (42.4 +/-6.9% from the basal value) in the treated group at 24 months (18.2 +/- 6.1% for the controls;p = 0.0081). There was no significant change in urinary DPD excretion in the treated group. These findings suggest that vitamin K2 treatment effectively prevents the occurrence of new fractures, although the vitamin K2-treated group failed to increase in LBMD. Furthermore, vitamin K2 treatment enhances gamma-carboxylation of the OC molecule.

Shiraki M, Shiraki Y, Aoki C, Miura M
J. Bone Miner. Res. Mar 2000
PMID: 10750566


 

I don’t know why they had to say “the vitamin K2-treated group failed to increase in LBMD”, when they could have said the vitamin K2-treated group prevented the decrease in LBMD seen in the control group, or that LBMD was increased compared to controls.

Vitamin K2 (MK-4) Suppresses RANKL Alone or With Bisphosphonates

Abstract

Osteoclast inhibitory effects of vitamin K2 alone or in combination with etidronate or risedronate in patients with rheumatoid arthritis: 2-year results.

To investigate the effects of vitamin K2 (Vit K2) alone or in combination with etidronate and risedronate on bone loss, osteoclast induction, and inflammation in patients with rheumatoid arthritis (RA).
Subjects comprised 79 patients with RA who were receiving prednisolone, divided into 3 groups: Group K, Vit K2 alone; Group KE, Vit K2 plus etidronate; and Group KR, Vit K2 plus risedronate. During a 24-month treatment and followup period, levels of N-terminal telopeptide of type I collagen (NTx) and bone alkaline phosphatase were measured. Bone mineral density (BMD) of the 3 groups was measured using dual-energy x-ray absorptiometry. Damage score to fingers on radiographic findings were measured according to the Larsen method. Serum levels of receptor activator of nuclear factor-kappaB ligand (RANKL) and osteoprotegerin (OPG) were measured.
Falls in rate of change of BMD decreased after 18 months in groups KR and KE. Larsen damage scores indicated a significant difference between Group KE and other groups. Significant decreases in serum NTx were observed in groups KE and KR at all timepoints, but not in Group K. Levels of RANKL decreased significantly in all 3 groups.
Vit K2 alone or in combination with bisphosphonates for treatment of osteoporosis in patients with RA may inhibit osteoclast induction via decreases in levels of RANKL.

Morishita M, Nagashima M, Wauke K, Takahashi H…
J. Rheumatol. Mar 2008
PMID: 18260178

Vitamin K2 (MK-4) Prevents Glucocorticoid Bone Loss

Abstract

Vitamin K2 inhibits glucocorticoid-induced bone loss partly by preventing the reduction of osteoprotegerin (OPG).

We have recently demonstrated that glucocorticoid (GC) suppresses bone formation and enhances bone resorption, with resultant bone loss. This altered bone turnover is not due to the action of parathyroid hormone (PTH), but appears to be related to the suppression of osteoprotegerin (OPG). As vitamin K2 (menatetrenone) has been used for the treatment of osteoporosis, the present study was carried out to evaluate the effect of vitamin K2 on GC-induced bone loss. Twenty patients with chronic glomerulonephritis treated with GC for the first time were chosen for this study. Ten patients received GC alone (group A) and the other 10 patients each received 15 mg of vitamin K2 per day in addition to GC (group B). Markers of bone metabolism, including serum OPG, osteocalcin (OC), bone-specific alkaline phosphatase activity (BAP), PTH, tartrate-resistant acid phosphatase (TRAP), and bone mineral density (BMD), were measured before and during the treatment. OPG was significantly decreased in group A (P < 0.001), while no significant change was seen in group B. TRAP was markedly increased in both groups, more particularly in group A (P < 0.01). PTH was decreased in group A, but was increased in group B. OC was decreased at month 1 but subsequently increased until month 12 in both groups. BAP had decreased at month 3 in group A (P < 0.05), but not in group B. BMD of the lumbar spine was significantly reduced after 6 months (P < 0.01), and 12 months (P < 0.001) of treatment in group A, whereas there was no remarkable change in group B. The present study demonstrated that the inhibition exerted by vitamin K2 of the reduction in OPG induced by GC may, at least in part, play a role in the prevention and treatment of GC-induced bone loss.

Sasaki N, Kusano E, Takahashi H, Ando Y…
J. Bone Miner. Metab. 2005
PMID: 15616893 | Free Full Text


The dose in the abstract is wrong. They used 15mg three times per day. That is 45mg per day and the same as the prescription dose used in Japan.

The patients were randomly divided into two groups before treatment. Informed consent was obtained from all subjects. Ten patients (6 men, and 2 premenopausal and 2 postmenopausal women ) received GC alone (group A) and the other 10 patients (6 men and 2 premenopausal and 2 postmenopausal women) each received 15 mg of vitamin K2 (menatetrenone; Glakay; Eisai, Tokyo, Japan) three times per day in addition to GC (group B) during the study period. The profiles of the patients are shown in Table 1. Renal function was normal in all subjects (serum Cr level 1.2mg/dl). There were no significant differences between the two groups in age, body mass index, or dose of GC (Table 1), or in various serum and urinary biochemical parameters at baseline (Table 2).

 

Vitamin K1 and MK-4 Stimulate Osteoblasts and Inhibit Osteoclasts In Vitro

Abstract

Vitamin K stimulates osteoblastogenesis and inhibits osteoclastogenesis in human bone marrow cell culture.

Accumulating evidence indicates that menaquinone-4 (MK-4), a vitamin K(2) with four isoprene units, inhibits osteoclastogenesis in murine bone marrow culture, but the reason for this inhibition is not yet clear, especially in human bone marrow culture. To clarify the inhibitory mechanism, we investigated the differentiation of colony-forming-unit fibroblasts (CFU-Fs) and osteoclasts in human bone marrow culture, to learn whether the enhancement of the differentiation of CFU-Fs from progenitor cells might relate to inhibition of osteoclast formation. Human bone marrow cells were grown in alpha-minimal essential medium with horse serum in the presence of MK-4 until adherent cells formed colonies (CFU-Fs). Colonies that stained positive for alkaline phosphatase activity (CFU-F/ALP(+)) were considered to have osteogenic potential. MK-4 stimulated the number of CFU-F/ALP(+) colonies in the presence or absence of dexamethasone. The stimulation was also seen in vitamin K(1) treatment. These cells had the ability to mineralize in the presence of alpha-glycerophosphate. In contrast, both MK-4 and vitamin K(1) inhibited 1,25 dihydroxyvitamin D(3)-induced osteoclast formation and increased stromal cell formation in human bone marrow culture. These stromal cells expressed ALP and Cbfa1. Moreover, both types of vitamin K treatment decreased the expression of receptor activator of nuclear factor kappaB ligand/osteoclast differentiation factor (RANKL/ODF) and enhanced the expression of osteoprotegerin/osteoclast inhibitory factor (OPG/OCIF) in the stromal cells. The effective concentrations were 1.0 microM and 10 microM for the expression of RANKL/ODF and OPG/OCIF respectively. Vitamin K might stimulate osteoblastogenesis in bone marrow cells, regulating osteoclastogenesis through the expression of RANKL/ODF more than through that of OPG/OCIF.

Koshihara Y, Hoshi K, Okawara R, Ishibashi H…
J. Endocrinol. Mar 2003
PMID: 12630919 | Free Full Text

Review: Vitamin K and Bone Health 1998-2008

Abstract

Update on the role of vitamin K in skeletal health.

A protective role for vitamin K in bone health has been suggested based on its role as an enzymatic cofactor. In observational studies, vitamin K insufficiency is generally associated with lower bone mass and increased hip fracture risk. However, these findings are not supported in randomized controlled trials (RCT) of phylloquinone (vitamin K(1)) supplementation and bone loss at the hip in the elderly. This suggests that increased vegetable and legume intakes may simultaneously improve measures of vitamin K status and skeletal health, even though the mechanisms underlying these improvements may be independent of each other. Menaquinone-4 (vitamin K(2)), when given at pharmacological doses, appears to protect against fracture risk and bone loss at the spine. However, there are emerging data that suggest the efficacy of vitamin K supplementation on bone loss is inconclusive.

Shea MK, Booth SL
Nutr. Rev. Oct 2008
PMID: 18826451 | Free Full Text


This is a great review of the different forms of Vitamin K and their benefits for bone. The full study includes a table listing many studies dated from 1998 to 2008 with their outcomes. I highly recommend reading the full text.

MK-4 in doses of 45 mg/d is used as a pharmacological treatment for osteoporosis in Japan, so there are numerous randomized control studies that have assessed the efficacy of MK-4 supplementation on skeletal health. Such doses cannot be attained from the diet, regardless of the form of vitamin K consumed. Phylloquinone from the diet is converted to MK-4 in certain tissues, including bone, but the proportion of phylloquinone that is converted is not known and no dose-dependent data are available for this conversion.

[…]

As reviewed in an earlier volume of this journal,60 studies indicate a therapeutic dose (45 mg/day) of MK-4 has a beneficial effect on spine or metacarpal BMD and fracture61–76 (Table 2). There is also improvement in bone turnover, as measured by circulating markers of bone formation and bone resorption, in response to MK-4 supplementation studies.71,72,76,77 In a separate systematic review and analysis of randomized clinical trials assessing the influence of vitamin K supplementation on hip fracture, Cockayne et al.78 concluded that supplementation with MK-4 for longer than 6 months reduces risk for hip and vertebral fracture. Included in that analysis were 12 studies that used daily doses of 45 mg/d of MK-4. As discussed by the authors, several of the studies used for the meta-analysis lacked sufficient sample size,64–66,70,73,79 were non-placebo-controlled intervention trials,70–74,76,77,80 and/or used concurrent treatment with calcium and/or vitamin D.62,69,75,76

It was subsequently disclosed that a large unpublished surveillance study conducted in Japan (n > 3000) did not find a protective effect of MK-4 supplementation (45 mg/day) on bone loss and fracture in the elderly, and that inclusion of this study may have altered the results of the meta-analysis.81 More recently, two placebo-controlled studies with large sample sizes reported no protective effect of 45 mg/d of MK-4 on hip BMD.59,67 Prior to these two publications, the majority of MK-4 supplementation studies did not report hip BMD as an outcome (Table 2). Given the heterogeneous quality of the studies used and considering the null findings of more recent, larger, placebo-controlled trials and unpublished surveillance data, prior systematic reviews and meta-analyses may need to be revisited.

 

Vitamin K1 and K2 Reversed Bone Loss in Obese Mice

Abstract

Vitamin K1 (phylloquinone) and K2 (menaquinone-4) supplementation improves bone formation in a high-fat diet-induced obese mice.

Several reports suggest that obesity is a risk factor for osteoporosis. Vitamin K plays an important role in improving bone metabolism. This study examined the effects of vitamin K1 and vitamin K2 supplementation on the biochemical markers of bone turnover and morphological microstructure of the bones by using an obese mouse model. Four-week-old C57BL/6J male mice were fed a 10% fat normal diet group or a 45% kcal high-fat diet group, with or without 200 mg/1000 g vitamin K1 (Normal diet + K1, high-fat diet + K1) and 200 mg/1000 g vitamin K2 (Normal diet + K2, high-fat diet + K2) for 12 weeks. Serum levels of osteocalcin were higher in the high-fat diet + K2 group than in the high-fat diet group. Serum OPG level of the high-fat diet group, high-fat diet + K1 group, and high-fat diet + K2 group was 2.31 ± 0.31 ng/ml, 2.35 ± 0.12 ng/ml, and 2.90 ± 0.11 ng/ml, respectively. Serum level of RANKL in the high-fat diet group was significantly higher than that in the high-fat diet + K1 group and high-fat diet + K2 group (p<0.05). Vitamin K supplementation seems to tend to prevent bone loss in high-fat diet induced obese state. These findings suggest that vitamin K supplementation reversed the high fat diet induced bone deterioration by modulating osteoblast and osteoclast activities and prevent bone loss in a high-fat diet-induced obese mice.

Kim M, Na W, Sohn C
J Clin Biochem Nutr Sep 2013
PMID: 24062608 | Free Full Text


Vitamin K is related to blood coagulation, assisting the promotion of OC carboxylation of γ-glutamic acid, which is produced by osteoblasts, and aiding in bone formation by coupling carboxylated OC with phosphine.(15) Many studies have demonstrated that low intake of vitamin K decreases bone density, and that this is a factor that increases osteoporosis and bone fracture.(16) In the study by Booth et al.,(17) low intake of vitamin K1 led to low bone density, and was a factor for increased risk of bone fracture. When vitamin K1 was administered to human bone marrow culture, osteoclast formation was inhibited.(13) After administering vitamin K2 to osteoblasts, real-time gene expression analysis found that the OC, OPG, and RANKL genes were expressed, demonstrating that vitamin K2 has an influence on osteoblasts and osteoclasts.(18) In addition, vitamin K2 supplementation in patients with osteoporosis necessitated by the administration of glucocorticoids inhibited OPG decrease, and had effects of bone loss prevention.(19) Vitamin K2 supplementation in patients with rheumatoid arthritis accompanied with osteoporosis decreased RANKL levels and inhibited osteoclast activation.(20) Therefore, vitamin K affects bone condition both in healthy adults and in patients with specific diseases.

[…]

The results of the bone density analysis revealed an increase with the vitamin K1 and K2 supplementation in high-fat diets. Studies on the relationship between bone density and vitamin K generally have used dual-energy x-ray absorptiometry or ultrasonic densitometry,(32) but this study used high-resolution 3D micro-CT to analyze the morphologic microstructure of trabecular bone. In the study by Fujikawa et al.,(24) the Tb.N increased when vitamin K2 and calcium were fed to ovariectomized mice, and the Tb.Sp decreased. Yamaguchi et al.,(33) also fed vitamin K2 to ovariectomized rats, and reported that it prevented bone loss. These two studies used osteoporosis-induced animals, and the methods differed from those in this study, in which obesity-induced mice were fed vitamin K supplements. In this study, even though there was no significantly statistical difference in the microstructure analysis between the groups, but BV, Tb.N, and Tb.Sp were seemed to be better in the vitamin K2-supplemented group than those in the HF group, indicating that vitamin K2 may play a role in protecting the structures of trabecular bone.

[…]

The effects of vitamin K1 and K2 supplementation in normal diet on bone metabolism were not statistically significant. However, vitamin K1 and K2 supplementation in a high-fat diet could prevent a decrease in bone density, and vitamin K2 had a greater effect on this parameter. Therefore, vitamin K2 increases OPG, a marker related to bone density and the metabolism of osteoclasts and osteoblasts, and it decreases RANKL, and thus has an influence on bone metabolism. This study has showed the effects of vitamin K on bone density and metabolism in animals, but further studies are needed to determine whether the same holds true for obese humans. Future studies would need to perform bone measurement and biochemical examinations on the bone microstructures and metabolism in humans.

 

Review: MK-4 Stimulates Osteoblasts

Abstract

[Effect of vitamin K on bone material properties].

Collagen cross-links are determinants of bone quality. Because vitamin K is thought to ameliorate bone quality, we summarized the literature regarding the effect of vitamin K such as menatetorenone (MK-4) on bone matrix property in the review. MK-4 seems to stimulate the osteoblastic activity. This results in the increase in collagen accumulation and lysyl oxidase controlled enzymatic cross-links in bone. Furthermore, vitamin K stimulates the secretion of collagen binding protein regulating proper fibrillogenesis such as leucine-rich repeat protein (tsukushi). This kinds of non-collagenous proteins induced by the treatment of vitamin K may also affect proper collagen cross-link formation and show the favorable effect on bone material quality.

Saito M
Clin Calcium Dec 2009
PMID: 19949271

Review: Vitamin K and Bone Health in Postmenopausal Women

Abstract

Effects of vitamin K in postmenopausal women: mini review.

Possible benefits of vitamin K on bone health, fracture risk, markers of bone formation and resorption, cardiovascular health, and cancer risk in postmenopausal women have been investigated for over three decades; yet there is no clear evidence-based universal recommendation for its use. Interventional studies showed that vitamin K1 provided significant improvement in undercarboxylated osteocalcin (ucOC) levels in postmenopausal women with normal bone mineral density (BMD); however, there are inconsistent results in women with low BMD. There is no study showing any improvement in bone-alkaline-phosphatase (BAP), n-telopeptide of type-1 collagen (NTX), 25-hydroxy-vitamin D, and urinary markers. Improvement in BMD could not be shown in the majority of the studies; there is no interventional study evaluating the fracture risk. Studies evaluating the isolated effects of menatetrenone (MK-4) showed significant improvement in osteocalcin (OC); however, there are inconsistent results on BAP, NTX, and urinary markers. BMD was found to be significantly increased in the majority of studies. The fracture risk was assessed in three studies, which showed decreased fracture risk to some extent. Although there are proven beneficial effects on some of the bone formation markers, there is not enough evidence-based data to support a role for vitamin K supplementation in osteoporosis prevention among healthy, postmenopausal women receiving vitamin D and calcium supplementation. Interventional studies investigating the isolated role of vitamin K on cardiovascular health are required. Longterm clinical trials are required to evaluate the effect of vitamin K on gynecological cancers. MK-4 seems safe even at doses as high as 45 mg/day.

Guralp O, Erel CT
Maturitas Mar 2014
PMID: 24342502

Zinc Acexamate Anabolic Effects > Zinc-Carnosine, Zinc, or MK-4 in Rat Tissue

Abstract

Potent effect of zinc acexamate on bone components in the femoral-metaphyseal tissues of elderly female rats.

1. The effect of zinc compounds on bone components in the femoral-metaphyseal tissues from elderly female rats (50 weeks old) was investigated in vitro. Bone tissues were cultured for 24 hr in Dulbecco’s modified Eagle medium containing either vehicle or zinc compounds (10[-7] to 10[-5] M).
2. Zinc content, alkaline phosphatase activity, deoxyribonucleic acid (DNA) and calcium contents in the metaphyseal tissues were significantly increased by the presence of zinc sulfate (10[-6] and 10[-5] M), beta-alanyl-L-histidinato zinc (AHZ; 10[-6] and 10[-5] M) and zinc acexamate (10[-7] to 10[-5] M). At 10[-5] M, the effect of zinc acexamate on the increase of bone components was more potent than that of zinc sulfate or AHZ.
3. The effect of zinc acexamate (10[-5] M) on the increase of alkaline phosphatase activity in the metaphyseal tissues was remarkable as compared with that of insulin (10[-8] M), estrogen (10[-9] M), insulin-like growth factor-I (10[-8] M), transforming growth factor-beta (10[-10] M), sodium fluoride (10[-3] M), dexamethasone (10[-7] M) and vitamin K2 (menaquinone-4; 10[-5] M) with an effective concentration.
4. The stimulatory effect of zinc acexamate (10[-5] M) on alkaline phosphatase activity and calcium content in the metaphyseal tissues was completely blocked by the presence of dipicolinate (10[-3] M), a chelator of zinc ion, and of cycloheximide (10[-6] M), an inhibitor of protein synthesis.
5. The present study demonstrates that zinc acexamate has a potent anabolic effect on bone components in the femoral-metaphyseal tissues from female elderly rats in vitro. The effect of zinc acexamate may be based in part on protein synthesis related to zinc ion in bone cells.

Yamaguchi M, Gao YH
Gen. Pharmacol. Mar 1998
PMID: 9510097

Low Dose MK-4 for a Year Maintains Bone Density and Improves Bone Quality in Postmenopausal Japanese Women

Abstract

Low-dose vitamin K2 (MK-4) supplementation for 12 months improves bone metabolism and prevents forearm bone loss in postmenopausal Japanese women.

Menaquinone-4 (MK-4) administered at a pharmacological dosage of 45 mg/day has been used for the treatment of osteoporosis in Japan. However, it is not known whether a lower dose of MK-4 supplementation is beneficial for bone health in healthy postmenopausal women. The aim of this study was to examine the long-term effects of 1.5-mg daily supplementation of MK-4 on the various markers of bone turnover and bone mineral density (BMD). The study was performed as a randomized, double-blind, placebo-controlled trial. The participants (aged 50-65 years) were randomly assigned to one of two groups according to the MK-4 dose received: the placebo-control group (n = 24) and the 1.5-mg MK-4 group (n = 24). The baseline concentrations of undercarboxylated osteocalcin (ucOC) were high in both groups (>5.1 ng/ml). After 6 and 12 months, the serum ucOC concentrations were significantly lower in the MK-4 group than in the control group. In the control group, there was no significant change in serum pentosidine concentrations. However, in the MK-4 group, the concentration of pentosidine at 6 and 12 months was significantly lower than that at baseline. The forearm BMD was significantly lower after 12 months than at 6 months in the control group. However, there was no significant decrease in BMD in the MK-4 group during the study period. These results suggest that low-dose MK-4 supplementation for 6-12 months improved bone quality in the postmenopausal Japanese women by decreasing the serum ucOC and pentosidine concentrations, without any substantial adverse effects.

Koitaya N, Sekiguchi M, Tousen Y, Nishide Y…
J. Bone Miner. Metab. Mar 2014
PMID: 23702931


This study appears to be a continuation of this 4 week study: Low Dose MK-4 May Benefit Bones in Postmenopausal Japanese Women