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Hormesis and bone marrow stem cells: Enhancing cell proliferation, differentiation and resilience to inflammatory stress.

Chemico-biological interactions
January 1, 1970
Edward J Calabrese
Journal ArticleReviewHuman StudyMolecular Study
Study Details

Study Goal

The researchers aimed to assess hormetic dose responses in bone marrow stem cells (BMSCs) induced by sulforaphane, focusing on cell renewal, differentiation, and resilience to inflammatory stress.

Results Summary

The study found that sulforaphane induces hormetic dose responses in BMSCs, similar to other stem cell types, enhancing cell proliferation, differentiation, and stress resilience. These effects suggest potential therapeutic applications for sulforaphane.

Population

Bone marrow stem cells (BMSCs) from a broad range of animal models and humans.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (24)
InterventionDirectionEndpointPopulationDosageImpactClaim #
caffeine
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#1
caffeine
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#2
caffeine
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#3
dexamethasone
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#4
dexamethasone
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#5
dexamethasone
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#6
nicotine
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#7
nicotine
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#8
nicotine
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#9
curcumin
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#10
curcumin
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#11
curcumin
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#12
Ginkgo biloba
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#13
Ginkgo biloba
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#14
Ginkgo biloba
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#15
green tea extracts
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#16
green tea extracts
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#17
green tea extracts
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#18
resveratrol
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#19
resveratrol
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#20
resveratrol
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#21
sulforaphane
increase
cell renewal (proliferation)
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#22
sulforaphane
increase
cell differentiation
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#23
sulforaphane
increase
resilience to inflammatory stress
bone marrow stem cells (BMSCs)
-
induces hormetic dose responses
#24
Abstract

This paper identifies and provides the first detailed assessment of hormetic dose responses by bone marrow stem cells (BMSCs) from a broad range of animal models and humans with particular emphasis on cell renewal (proliferation), cell differentiation and enhancing resilience to inflammatory stress. Such hormetic dose responses are commonly reported, being induced by a broad range of chemicals, including pharmaceuticals (e.g., caffeine, dexamethasone, nicotine), dietary supplements (e.g., curcumin, Ginkgo biloba, green tea extracts. resveratrol, sulforaphane), endogenous agents (e.g., hydrogen sulfide, interleukin 10), environmental contaminants (e.g., arsenic, PFOS) and physical stressor agents (e.g., EMF, shockwaves). Hormetic dose responses reported here for BMSCs are similar to those induced with other stem cell types [e.g., adipose-derived stem cells (ADSCs), dental pulp stem cells (DPSCs), periodontal ligament stem cells (PDLSCs), neuro stem cells (NSCs), embryonic stem cells (ESCs)], indicating a substantial degree of generality for hormetic responses in stem cells. The paper assesses both the underlying mechanistic foundations of BMSC hormetic responses and their potential therapeutic implications.

Medical Subject Headings (MeSH)
AnimalsAnti-Inflammatory AgentsCell DifferentiationCell ProliferationDietary SupplementsHormesisHumansInflammationMesenchymal Stem Cells
Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality85/10
Citation Metrics
Total Citations20
Citations/Year6.7
Relative Citation Ratio2.98
NIH Percentile84.9%
Research Impact Scores
APT Score0.25
Weight Score0.90
Normalized Score0.67
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