Tag Archives: polycystic

Unraveling Polycystic Ovary Syndrome: New Insights into the Genetic Causes of PCOS

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Visual representation of polycystic ovary syndrome showing enlarged ovaries

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Recent research has begun to shed light on the genetics behind polycystic ovary syndrome (PCOS), paving the way for potential new therapies.

PCOS affects up to 20% of women, leading to disrupted ovarian function characterized by at least two of the following: irregular or absent periods, elevated male hormones like testosterone, and the accumulation of immature eggs within cyst-like ovaries. Consequently, it can result in fertility challenges.

While the exact causes remain unclear, PCOS is believed to correlate with changes in the gut microbiome and hormonal imbalances during prenatal development. The condition also appears to have a hereditary component, with studies indicating that 70% of the risk is genetic. However, researchers have only pinpointed about 25 genetic mutations impacting sex hormone production and ovarian function, explaining roughly 10% of an individual’s risk.

To address this knowledge gap, Qiao Shigang and colleagues at Shandong University in Jinan, China, conducted a genomic study involving over 440,000 women from China and Europe, out of which 25,000 were diagnosed with PCOS, marking the largest gene analysis related to the condition to date.

The researchers discovered 94 genetic variants that appear to contribute to PCOS risk, with 73 being previously unrecognized. Notably, one mutation affects the gene responsible for the mitochondrial ribosomal protein S22, essential for mitochondrial function, an area that Zhao points out has connections in earlier studies discussing the link between PCOS and mitochondrial dysfunction.

Another newly identified variant impacts sex hormone-binding globulin, a protein that moderates the activity of sex hormones and is often found at reduced levels in women with PCOS.

Several of the remaining variants influence the function of granulosa cells in the ovaries, responsible for producing estrogen and progesterone and aiding in egg development during the menstrual cycle. This supports the hypothesis that PCOS is genetically influenced by fluctuations in sex hormone levels, according to Zhao.

In summary, the research indicated that these 94 mutations account for around 27% of the risk variation in PCOS among European participants and about 34% in the Chinese cohort.

“This study is significant because it enhances our understanding of the genetic factors associated with this condition,” remarks Elisabeth Stenner-Victorin from Karolinska Institutet, Sweden. Furthermore, it underscores the necessity of including diverse ancestral backgrounds in PCOS genetic research, according to Zhao.

Ultimately, the team identified medications that could modify the pathways affected by the recognized mutations. Some of these, like clomiphene, are already used for PCOS treatment; they stimulate ovulation which is often hampered by the syndrome. Additionally, the team discovered that betaine—sometimes utilized for homocystinuria treatment—might also benefit PCOS patients. Future studies using mice exhibiting PCOS-like symptoms could explore this treatment potential.

“Current treatments focus on alleviating symptoms, as there aren’t any medications that can cure PCOS,” states Stenner-Victorin. Typical interventions include clomiphene, contraceptive pills to manage periods, and metformin, a type 2 diabetes medication that may enhance fertility. However, effectiveness varies among individuals. “Identifying genetic clusters that affect PCOS risk will be essential for developing more targeted treatment strategies for these women,” she adds.

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Source: www.newscientist.com

Polycystic Ovary Syndrome May Be Inherited Through Chemical Modifications of DNA

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Illustration of enlarged ovaries in an individual with polycystic ovary syndrome

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Polycystic ovarian syndrome (PCOS) may be transmitted through families via chemical markers that modify DNA structure, implying that medications that adjust these markers in embryos could potentially prevent the disorder.

Individuals with PCOS usually display at least two of the following three key traits: elevated levels of male hormones like testosterone, irregular menstrual cycles, and the presence of immature eggs that resemble cysts in the ovaries.

While this condition frequently runs in families, its inheritance pattern remains unclear. “Around 25-30 genetic mutations are associated with PCOS, but they only account for a minor part of the hereditary aspects,” explains Elisabet Stener-Victorin from the Karolinska Institute in Sweden.

Research on mice indicates that variations in epigenetic marks (chemical tags that regulate gene activity without changing DNA sequences) may also be influential. As eggs develop, most of these marks are believed to be erased, but some may persist as a possible means of inheritance.

To investigate this in relation to human PCOS, Qianshu Zhu from China’s Chungin Medical University and colleagues conducted an analysis of the epigenetic markers in eggs and embryos donated 3 days prior, revealing data from 133 and 95 PCOS donors respectively. “No one has truly explored this with human samples,” states Stener-Victorin.

The study revealed a correlation between PCOS donation and altered patterns in three epigenetic marks in eggs and embryos. Two of these marks contribute to silencing genes and helping to package them within cells, resulting in a tighter DNA coil around a protein called histone, rendering the genetic code less accessible for RNA transcription, a crucial step in protein synthesis. Meanwhile, the third type of mark activates genes by loosening the DNA coil.

Together, the epigenetic modifications related to PCOS could potentially affect the metabolic processes of eggs and embryos, thereby elevating the chances of passing on PCOS to the next generation. Nevertheless, more research is essential to understand how these changes influence PCOS symptoms in offspring, both in mice and humans, as noted by Stener-Victorin. “At this stage, I recognize these marks differ, and that doesn’t inherently mean they are harmful,” she remarks.

Additional experiments suggest that the researchers may employ medications to reverse epigenetic alterations, potentially mitigating the risk of PCOS. “If we observe that modifying these histone marks changes the next-generation characteristics of PCOS, it could present a critical prevention target,” Zhu stated in a press release. Furthermore, the team posits that clinicians might utilize PCOS-related epigenetic markers to choose the healthiest embryos during in vitro fertilization procedures.

Zhu presented these findings at the European Breeding Association’s Annual Meeting held in Paris on July 1st.

topics:

  • Epigenetics/
  • Women’s health

Source: www.newscientist.com

Malaria drug shows promise in treating polycystic ovary syndrome

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The malaria drug artemisinin is extracted from the plant wormwood.

Frederick J. Brown/AFP via Getty Images

A drug already used to treat malaria may also be effective in treating polycystic ovary syndrome (PCOS).

A small study of 19 women with PCOS found that the commonly used drug artemisinin improved menstrual cycle regularity and reduced high testosterone levels that are common in PCOS patients.

The underlying cause of PCOS is unknown, but it is linked to several hormonal imbalances, including excess testosterone produced by the ovaries, which can lead to symptoms like irregular menstrual periods, infertility, and increased acne and body hair.

Affected people also tend to have reduced sensitivity to insulin, the hormone that regulates sugar, which leads to weight gain and exacerbates the hormonal imbalance.

Currently, PCOS patients are treated individually depending on their symptoms, for example undergoing laser treatments to remove body hair or taking birth control pills to regularize menstruation.

While investigating the effects of various drugs on fat cells in mice, Chi Kun Tang Researchers at Fudan University in Shanghai, China, found that artemisinin reduced symptoms in mice with PCOS-like conditions.

His team then gave 19 women with PCOS artemisinin for three months and found that all of them experienced a drop in testosterone levels, and most also saw a reduction in another substance called anti-Müllerian hormone. Associated with PCOSTwelve of the participants also experienced more regular menstrual cycles after taking the drug.

In other studies using mouse and human cells, the team found that artemisinin could reduce testosterone production in the ovaries.

Stephen Franks The Imperial College London researcher says that although the 19 women had a healthy BMI on average, weight loss tends to reduce PCOS symptoms, suggesting that artemisinin may work through another mechanism: improving insulin sensitivity. “If the results are as positive in a randomized trial as they are in this pilot study, it would be exciting,” he says.

Elisabeth Stener-Victorin Researchers at the Karolinska Institutet in Stockholm, Sweden, say the fact that artemisinin is already generally safe when used to treat malaria means that it could soon be repurposed as a new treatment for PCOS.

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Source: www.newscientist.com