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Query: EC:3.4.24.3 (
collagenase
)
18,340
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Parathyroid hormone
(
PTH
) stimulates bone resorption by acting directly on osteoblasts/stromal cells and then indirectly to increase differentiation and function of osteoclasts.
PTH
acting on osteoblasts/stromal cells increases
collagenase
gene transcription and synthesis. To assess the role of
collagenase
in the bone resorptive actions of
PTH
, we used mice homozygous (r/r) for a targeted mutation (r) in Col1a1 that are resistant to
collagenase
cleavage of type I collagen. Human
PTH
(1-34) was injected subcutaneously over the hemicalvariae in wild-type (+/+) or r/r mice four times daily for three days. Osteoclast numbers, the size of the bone marrow spaces and periosteal proliferation were increased in calvariae from
PTH
-treated +/+ mice, whereas in r/r mice,
PTH
-induced bone resorption responses were minimal. The r/r mice were not resistant to other skeletal effects of
PTH
because abundant interstitial collagenase mRNA was detected in the calvarial periosteum of
PTH
-treated, but not vehicle-treated, r/r and +/+ mice. Calcemic responses, 0.5-10 hours after intraperitoneal injection of
PTH
, were blunted in r/r mice versus +/+ mice. Thus,
collagenase
cleavage of type I collagen is necessary for
PTH
induction of osteoclastic bone resorption.
...
PMID:Bone resorption induced by parathyroid hormone is strikingly diminished in collagenase-resistant mutant mice. 1002 60
Parathyroid hormone
(PTH-(1-34)) potently suppresses apatite deposition in osteoblastic cultures. These inhibitory effects are mediated through signaling events following PTH receptor binding. Using both selective inhibitors and activators of protein kinase A (PKA), this study shows that a transient activation of PKA is sufficient to account for PTH's inhibition of apatite deposition. This inhibition is not a result of reduced cell proliferation, reduced alkaline phosphatase activity, increased
collagenase
production, or lowering medium pH. Rather, data suggest a functional relationship between matrix assembly and apatite deposition in vitro. Bone sialoprotein (BSP) and apatite co-localize in the extracellular matrix of mineralizing cultures, with matrix deposition of BSP temporally preceding that of apatite. Transient activation of PKA by either PTH-(1-34) or short term cAMP analog treatment blocks the deposition of BSP in the extracellular matrix without a significant reduction in the total amount of BSP synthesized and secreted. This effect is reversible after allowing the cultures to recover in the absence of PKA activators for several days. Thus, a transient activation of PKA may suppress mineral deposition in vitro as a consequence of altering the assembly of an extracellular matrix permissive for apatite formation.
...
PMID:Reversible suppression of in vitro biomineralization by activation of protein kinase A. 1075 13
Parathyroid hormone
(
PTH
) agonists and antagonists have been shown to improve hair growth after chemotherapy; however, rapid clearance and systemic side-effects complicate their usage. To facilitate delivery and retention to skin, we fused
PTH
agonists and antagonists to the collagen binding domain (CBD) of
Clostridium histolyticum collagenase
. in-vitro studies showed that the agonist fusion protein,
PTH
-CBD, bound collagen and activated the
PTH
/parathyroid hormone-related peptide receptor in SaOS-2 cells. The antagonist fusion proteins,
PTH
(7-33)-CBD and
PTH
([-1]-33)-CBD, also bound collagen and antagonized
PTH
(1-34) effect in SaOS-2 cells; however,
PTH
(7-33)-CBD had lower intrinsic activity. Distribution studies confirmed uptake of
PTH
-CBD to the skin at 1 and 12 hr after subcutaneous injection. We assessed in vivo efficacy of
PTH
-CBD and
PTH
(7-33)-CBD in C57BL/6J mice. Animals were depilated to synchronize the hair follicles; treated on Day 7 with agonist, antagonist, or vehicle; treated on Day 9 with cyclophosphamide (150 mg/kg i.p.) or vehicle; and sacrificed on Day 39. Normal mice (no chemo and no treatment) showed rapid regrowth of hair and normal histology. Chemo+Vehicle mice showed reduced hair regrowth and decreased pigmentation; histology revealed reduced number and dystrophic anagen/catagen follicles. Chemo+Antagonist mice were grossly and histologically indistinguishable from Chemo+Vehicle mice. Chemo+Agonist mice showed more rapid regrowth and repigmentation of hair; histologically, there was a normal number of hair follicles, most of which were in the anagen phase. Overall, the agonist
PTH
-CBD had prominent effects in reducing chemotherapy-induced damage of hair follicles and may show promise as a therapy for chemotherapy-induced alopecia.
...
PMID:Treatment for chemotherapy-induced alopecia in mice using parathyroid hormone agonists and antagonists linked to a collagen binding domain. 2213 Sep 12
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