The effect of estrogen on tendon and ligament metabolism and function

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madman

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Another possible positive benefit for e2?




The effect of estrogen on tendon and ligament metabolism and function - ScienceDirect

Abstract

Tendons and ligaments are crucial structures inside the musculoskeletal system. Still many issues in the treatment of tendon diseases and injuries have yet not been resolved sufficiently. In particular, the role of estrogen-like compound (ELC) in tendon biology has received until now little attention in modern research, despite ELC being a well-studied an important factor in the physiology of other parts of the musculoskeletal system. In this review, we attempt to summarize the available information on this topic and to determine many open questions in this field.




Highlights

*The effect of estrogens on tendons and ligaments is poorly understood.


*Research implies a positive effect of estrogens on tendon tissue biology and biomechanics.

*However, results are in part conflicting, highlighting the need for further in-depth research in the field.






estradiol estrogen joint ligaments.jpg
 
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Nelson Vergel

Founder, ExcelMale.com
Madman

Thanks for posting this article. It explains why so many guys who are taking anastrozole doses above 0.5 mg per week sometimes complain about joint issues.
 

Seagal

Active Member

Effect of Estrogen on Musculoskeletal Performance and Injury Risk
Nkechinyere Chidi-Ogbolu et al. Front Physiol. 2019.

Estrogen has a dramatic effect on musculoskeletal function. Beyond the known relationship between estrogen and bone, it directly affects the structure and function of other musculoskeletal tissues such as muscle, tendon, and ligament. In these other musculoskeletal tissues, estrogen improves muscle mass and strength, and increases the collagen content of connective tissues.

However, unlike bone and muscle where estrogen improves function, in tendons and ligaments estrogen decreases stiffness, and this directly affects performance and injury rates. High estrogen levels can decrease power and performance and make women more prone for catastrophic ligament injury.

The goal of the current work is to review the research that forms the basis of our understanding how estrogen affects muscle, tendon, and ligament and how hormonal manipulation can be used to optimize performance and promote female participation in an active lifestyle at any age.
 

madman

Super Moderator

Effect of Estrogen on Musculoskeletal Performance and Injury Risk
Nkechinyere Chidi-Ogbolu et al. Front Physiol. 2019.

Estrogen has a dramatic effect on musculoskeletal function. Beyond the known relationship between estrogen and bone, it directly affects the structure and function of other musculoskeletal tissues such as muscle, tendon, and ligament. In these other musculoskeletal tissues, estrogen improves muscle mass and strength, and increases the collagen content of connective tissues.

However, unlike bone and muscle where estrogen improves function, in tendons and ligaments estrogen decreases stiffness, and this directly affects performance and injury rates. High estrogen levels can decrease power and performance and make women more prone for catastrophic ligament injury.

The goal of the current work is to review the research that forms the basis of our understanding how estrogen affects muscle, tendon, and ligament and how hormonal manipulation can be used to optimize performance and promote female participation in an active lifestyle at any age.

 

Nelson Vergel

Founder, ExcelMale.com
This document above explores the effect of estrogen on musculoskeletal performance and injury risk. It discusses how estrogen affects various musculoskeletal tissues such as bone, muscle, tendon, and ligament. Estrogen improves muscle mass and strength, increases collagen content in connective tissues, and stabilizes the extracellular matrix. However, in tendons and ligaments, estrogen decreases stiffness, which can lead to decreased performance and increased injury rates. The document also discusses the role of estrogen in menopause and the use of hormone replacement therapy to counteract the negative effects of estrogen deficiency. Overall, understanding the effects of estrogen on musculoskeletal function is crucial for optimizing performance and promoting female participation in an active lifestyle.

Estrogen has a significant impact on muscle protein synthesis and muscle mass in postmenopausal women. Studies have shown that postmenopausal women have higher rates of muscle protein synthesis and breakdown compared to age-matched men and premenopausal women 1. However, despite the higher rates of protein turnover, postmenopausal women still experience a rapid decrease in muscle mass and strength, making them more vulnerable to age-related frailty 1. This suggests that the increase in protein synthesis rate is counteracted by a greater increase in protein breakdown or that the proteins being synthesized are not the myofibrillar proteins needed for muscle mass maintenance 1.

Furthermore, postmenopausal women show reduced sensitivity to anabolic stimuli, such as exercise and nutrition, compared to age-matched men 1. This chronic decrease in estrogen levels attenuates the response to anabolic signaling 1. However, studies have found that estrogen replacement therapy (ERT) can normalize the response to anabolic stimuli 1. Myofibrillar protein synthesis in women taking ERT is increased in response to resistance exercise, whereas postmenopausal women who do not take ERT do not show this response 1. These findings highlight the importance of estrogen in determining the sensitivity of muscle to anabolic signaling and the potential benefits of estrogen replacement therapy in postmenopausal women 1.

In summary, estrogen plays a crucial role in muscle protein synthesis and muscle mass maintenance in postmenopausal women. The decline in estrogen levels after menopause leads to decreased muscle mass and strength, as well as reduced sensitivity to anabolic stimuli. Estrogen replacement therapy can help normalize these effects and improve muscle protein synthesis and muscle mass in postmenopausal women 1.

Estrogen can influence collagen synthesis and incorporation in tendons and ligaments through several mechanisms. One possible mechanism is the indirect effect of estrogen on insulin-like growth factor-1 (IGF-1), which is known to increase tendon collagen synthesis. Studies have shown that the administration of IGF-1 increases tendon collagen synthesis in humans and engineered ligaments. Estrogen may regulate the synthesis and incorporation of collagen into the tendon matrix by modulating the action of IGF-1 1.
Another mechanism is the direct effect of estrogen on lysyl oxidase (LOX) activity. LOX is an enzyme responsible for cross-linking collagen fibers, which contributes to the mechanical strength of tendons and ligaments. High levels of estrogen have been shown to inhibit LOX activity, leading to decreased tissue stiffness despite an increase in collagen content. This suggests that estrogen may increase collagen synthesis or incorporation but decrease tendon stiffness by directly inhibiting LOX and reducing cross-linking 3.
Furthermore, estrogen can affect collagen turnover by regulating the expression of matrix metalloproteinases (MMPs). MMPs are enzymes involved in collagen degradation. Studies have shown that estrogen can increase the expression of MMP-13, which may accelerate collagen turnover 2.
It is important to note that the effects of estrogen on collagen synthesis and incorporation in tendons and ligaments can vary depending on factors such as age and hormonal status. Pre-menopausal women may exhibit different responses to estrogen compared to post-menopausal women. Hormone replacement therapy in post-menopausal women has been associated with increased tendon collagen synthesis, while oral contraceptives in pre-menopausal women have been linked to decreased exercise-induced collagen synthesis 4.
In summary, estrogen can influence collagen synthesis and incorporation in tendons and ligaments through indirect effects on IGF-1, direct effects on LOX activity, and regulation of MMP expression. However, the specific mechanisms and their interactions are complex and may vary depending on age and hormonal status. Further research is needed to fully understand the role of estrogen in tendon and ligament health.
 
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