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Decidualization

Decidualization is a progesterone-driven process in which endometrial stromal fibroblasts transform into specialized secretory decidual cells, enabling the human to support embryo implantation, placentation, and early pregnancy maintenance. This transformation occurs cyclically during the of each , independent of fertilization, and involves profound morphological and functional changes in the stromal compartment to create a receptive uterine environment. The process initiates approximately six to eight days after in perivascular regions near spiral arteries, triggered by rising levels of progesterone and (cAMP), with playing a supportive role in priming expression. Cellular changes include enlargement, accumulation of and , expansion of the and Golgi apparatus, and secretion of key markers such as (PRL) and insulin-like growth factor-binding protein 1 (IGFBP-1). A network of transcription factors, including HOXA10, FOXO1, and HAND2, orchestrates genetic reprogramming that downregulates pro-inflammatory pathways while upregulating genes for , extracellular matrix remodeling, and immune modulation. In the absence of , declining progesterone leads to spontaneous breakdown of the decidualized , resulting in and cyclic regeneration. Decidualization is essential for pregnancy health, as it facilitates attachment, invasion, vascular remodeling for placental formation, and maternal toward the semi-allogeneic through recruitment of uterine natural killer () cells and suppression of excessive . It forms three distinct zones—decidua capsularis, parietalis, and basalis—each with specialized functions in nutrient provision and barrier establishment. Impaired decidualization, often termed "decidualization resistance," is implicated in reproductive disorders, including recurrent pregnancy loss (affecting 1-2% of couples), (5-7% of pregnancies), implantation failure, and , highlighting its role as a primary determinant of successful .

Definition and Overview

Definition and Process

Decidualization refers to the morphological and functional differentiation of endometrial stromal cells (ESCs) into specialized decidual cells, a process essential for establishing in humans. This transformation involves the conversion of fibroblast-like ESCs into large, polygonal epithelioid cells that exhibit proliferation arrest, cytoplasmic expansion, and accumulation of and . Key functional changes include the secretion of proteins, such as (PRL) and insulin-like growth factor-binding protein-1 (IGFBP-1), which support uterine receptivity and early embryonic development. In , decidualization begins in the mid-secretory phase of the , approximately 9 days after (around cycle days 21-25), and progresses through the late secretory phase (up to days 28), independent of implantation. Unlike in most mammals, where this process is triggered solely by implantation, human decidualization occurs cyclically and spontaneously, leading to menstrual shedding if does not ensue. The initial morphological alterations are evident in perivascular stromal cells surrounding spiral arterioles, with cells adopting a rounded, appearance and prominent nuclei. This process is primarily triggered by rising progesterone levels post-ovulation, often in combination with and cyclic AMP signaling, though detailed pathways are further explored elsewhere. Evolutionarily, spontaneous decidualization is a trait unique to higher and certain , such as the spiny , facilitating and precise control over implantation timing.

Physiological Importance

Decidualization is essential for successful implantation, as it transforms the endometrial into a receptive environment that supports attachment and initial invasion. This process involves the of stromal cells into decidual cells, which secrete factors promoting and nutrient provision to the implanting under hypoxic conditions, thereby ensuring histiotrophic nourishment before . Beyond implantation, decidualization protects the maternal from excessive invasion by regulating the modification of spiral arteries through decidual cell secretions, which facilitate controlled vascular remodeling to establish adequate placental blood flow without compromising uterine integrity. This remodeling, initiated by immune cells within the , widens the spiral arteries to support fetal development while preventing over-invasion that could lead to complications. Decidualization also facilitates at the maternal-fetal interface by modulating and promoting the secretion of anti-inflammatory cytokines, such as and TGF-β, which recruit regulatory immune cells to suppress pro-inflammatory responses and protect the semi-allogeneic from rejection. In the long term, robust decidualization supports successful by maintaining viability, reducing the risk of through effective embryo quality sensing, and contributing to postpartum endometrial regeneration and .

Cellular and Molecular Mechanisms

Hormonal and Signaling Pathways

Decidualization is primarily orchestrated by progesterone, which acts as the master regulator through its receptors PR-A and PR-B expressed in endometrial stromal cells. PR-A predominantly mediates the anti-proliferative and differentiative effects for decidual , while PR-B supports complementary proliferative responses in early stages, ensuring coordinated uterine for implantation. Progesterone binding to these receptors initiates a cascade that converges with (cAMP) signaling, elevating intracellular cAMP levels to activate (PKA). This activation leads to of cAMP response element-binding protein (CREB), which in turn drives the transcription of key decidualization markers such as HOXA10 and FOXO1, promoting the genetic reprogramming necessary for stromal cell differentiation. Prior to progesterone dominance, plays a priming role by enhancing endometrial receptivity, upregulating expression, and facilitating the transition to a progesterone-responsive state during the mid-luteal phase. This sequential hormonal interplay ensures timely decidualization, with estrogen indirectly supporting progesterone's effects without directly triggering the process. Secondary factors amplify these signals: relaxin boosts accumulation to potentiate activation, (EGF) via its receptor enhances stromal survival and responsiveness, and Wnt signaling, particularly through WNT4, integrates with progesterone to fine-tune gradients for sustained differentiation. Recent studies highlight metabolic shifts mediated by the (AMPK) pathway, where AMPK activation reprograms and energy homeostasis to support decidualization resilience, particularly under stress conditions like in . Feedback mechanisms maintain decidual , with decidual —induced by the /progesterone axis—acting in an autocrine manner to inhibit excessive stromal , thereby preventing and ensuring controlled tissue remodeling. This -mediated loop dampens pro-inflammatory responses and sustains the differentiated state, linking upstream signaling to long-term uterine stability.

Endometrial Stromal Cell Differentiation

Endometrial stromal cells (ESCs), which are fibroblast-like precursors in the uterine lining, undergo profound during decidualization, transforming into specialized decidual cells essential for establishment. This process is marked by a morphological shift from elongated, spindle-shaped fibroblasts to enlarged, epithelioid-like cells with abundant , accompanied by exit into a quiescent G0/G1 state to halt . In some mammalian , including , this also involves leading to in decidual cells, though it does not occur in humans, where primarily manifests as sustained G0/G1 quiescence. At the molecular level, decidualization drives specific changes in ESCs, with upregulation of secretory markers such as (PRL) and insulin-like growth factor binding protein-1 (IGFBP-1), which support nutrient provision and interaction. Adhesion-related , including α1β1 and α5β1, are also elevated to enhance cell-matrix interactions critical for tissue remodeling. Conversely, proliferation-associated genes like Ki-67 are downregulated, reinforcing the shift away from cell division toward a differentiated, non-proliferative . Functionally, differentiated decidual cells exhibit increased secretory activity, accumulating and releasing factors that foster an implantation-friendly environment, alongside prominent storage to meet the high energy demands of early . These cells also develop resistance to through mechanisms involving adaptation and anti-apoptotic signaling, ensuring their survival during the dynamic implantation phase. Recent studies highlight heterogeneity in ESC differentiation, particularly through metabolic reprogramming that activates and pathways to sustain production and cellular demands during decidualization. In vitro, the extent of differentiation is quantitatively assessed via assays measuring PRL secretion into culture media, serving as a reliable index of decidualization efficiency following hormonal stimulation.

Involvement of Immune Cells and Extracellular Matrix

During decidualization, immune cells infiltrate the endometrium and play essential roles in supporting tissue remodeling and immune tolerance. Uterine natural killer (uNK) cells constitute approximately 70% of the decidual leukocyte population in the first trimester, differentiating from CD34+ progenitor cells and becoming highly abundant at the maternal-fetal interface. These uNK cells secrete vascular endothelial growth factor (VEGF) and angiopoietins, which promote angiogenesis and vascular remodeling critical for placental development. Additionally, uNK cells produce cytokines such as interferon-gamma and granulocyte-macrophage colony-stimulating factor, further facilitating tissue homeostasis and trophoblast support. Macrophages, comprising 10-20% of decidual leukocytes, exhibit regulatory properties that suppress pro-inflammatory responses; for instance, Tim-3+ decidual macrophages induce a Th2 and regulatory T cell (Treg) bias in CD4+ T cells, enhancing immune tolerance. Tregs, enriched in the decidua, actively suppress effector T cell proliferation and cytokine production, maintaining a tolerogenic environment that prevents fetal rejection. Extracellular matrix (ECM) reorganization is a hallmark of decidualization, involving dynamic deposition and degradation to accommodate uterine transformation. Recent studies indicate increased deposition of , collagen IV, and in the decidual , forming a supportive network that integrates with vascular and stromal components. These changes, observed in 2025 analyses of bioprinted models, enable structural adaptation during early pregnancy. Matrix metalloproteinases (MMPs), such as MMP-2 and MMP-9, along with their inhibitors (TIMPs), tightly regulate this remodeling by degrading components like collagen IV and while preventing excessive breakdown. This balance ensures controlled tissue expansion and without compromising integrity. Interactions between immune cells, stromal cells, and the are pivotal for coordinated decidualization. Decidual stromal cells recruit cells through secretion of , including (IP-10), which binds receptors on cells to direct their migration and accumulation. The remodeled serves as a scaffold that modulates invasion, providing biomechanical cues and binding sites that limit excessive penetration while supporting attachment and spiral artery remodeling. For example, and IV in the interact with on cells, regulating their motility and ensuring precise implantation depth.

Decidualization in Reproductive Cycles

In the Menstrual Cycle

Decidualization in the begins shortly after , during the mid-luteal phase, when rising levels of progesterone from the induce differentiation of endometrial stromal cells. This process initiates primarily in perivascular stromal cells surrounding the spiral arteries, which serve as a niche for cells responsive to progesterone signaling. From these perivascular sites, decidualization spreads zonally outward through the endometrial stroma, transforming fibroblastic cells into secretory decidual cells characterized by morphological changes such as cytoplasmic expansion and production of components. This zonal progression ensures a controlled buildup of the endometrial functional layer, preparing it for potential implantation while occurring independently of embryonic signals. A distinctive feature of decidualization is its implantation-independent nature, unlike in where the process is triggered post-implantation by blastocyst-derived signals. In humans, this spontaneous creates a receptive "window of implantation" around days 20-24 of the cycle, allowing the to support attachment even in non-conceptive cycles. Cycle regulation involves withdrawal following , which permits progesterone dominance and enhances stromal sensitivity to the . During this phase, HOXA10 expression peaks in the mid-secretory , acting as a key transcriptional regulator that promotes stromal and receptivity markers. In the absence of implantation, the partial decidualization achieved sustains the temporarily but culminates in shedding upon regression and progesterone decline, typically around day 28. This progesterone withdrawal triggers of spiral arteries, ischemia, and breakdown of the decidualized layer, resulting in . Incomplete or dysregulated decidualization has been associated with conditions like membranous , where excessive decidual transformation leads to the expulsion of intact endometrial casts, causing severe cramping and pain during shedding. The hormonal feedback loop, with rising progesterone initially sustaining the process, ultimately breaks down without , ensuring cyclic renewal of the .

Preparation for Embryo Implantation

Decidualization profoundly modifies the endometrial to establish a receptive state conducive to attachment and initial invasion. This transformation involves the of stromal fibroblasts into decidual cells, which exhibit enlarged , increased secretory activity, and enhanced intercellular communication, collectively optimizing the uterine environment for initiation. These changes ensure that the supports the 's to the luminal , a critical first step in implantation, while preventing untimely attachments that could compromise . A key adaptation in the receptive is the expression of molecules by decidual cells, including L-selectin ligands on the endometrial surface, which interact with on the to mediate loose apposition and subsequent firm attachment of the . This molecular dialogue, alongside like αvβ3, creates a permissive interface for embryo-endometrium interaction, peaking during the mid-secretory phase. Vascular remodeling accompanies these events, with spiral arteries undergoing coiling and progressive dilation under the influence of decidual factors; uterine natural killer (uNK) cells further drive by secreting (VEGF) and other pro-angiogenic signals, ensuring enhanced blood flow and nutrient availability at potential implantation sites. Decidual cells also adopt a specialized secretory profile, producing , insulin-like growth factor-binding protein-1 (IGFBP-1), and cytokines such as interleukin-10 (IL-10), which foster an immunosuppressive milieu to shield the implanting from maternal immune surveillance. This secretory repertoire not only supports local but also modulates remodeling to facilitate controlled invasion. The entire preparatory process is confined to a narrow window of implantation, lasting approximately 4-5 days (typically days 20-24 of the ), during which hormonal cues like progesterone maintain receptivity; any misalignment in this timing disrupts attachment and often results in cycle failure or early loss. In comparative terms, human decidualization initiates pre-implantation in each , driven primarily by progesterone to proactively ready the , whereas in mice, it is triggered post-implantation by blastocyst-derived signals, highlighting species-specific strategies for reproductive timing.

Decidualization During

Role in Placental Development

Decidualization plays a pivotal in the formation of the by facilitating controlled interactions between maternal decidual cells and fetal trophoblasts, ensuring proper implantation and vascular in early . Following implantation, decidual stromal cells differentiate and secrete factors that regulate extravillous trophoblast (EVT) invasion into the decidua basalis, preventing excessive penetration while promoting necessary remodeling. This process establishes the foundation for nutrient and , with decidualization reaching completion around week 8 of , coinciding with peak cytotrophoblast proliferation in to support placental expansion. A key mechanism involves decidual cells limiting EVT invasion through secretion of transforming growth factor-β (TGF-β) and inhibitor of metalloproteinases-3 (TIMP-3), which inhibit degradation and motility. TGF-β signaling in the activates SMAD3 pathways in EVTs, shifting them from an invasive to a secretory with increased expression of genes like and PAPPA2, thereby restricting penetration depth to the upper and inner . Similarly, TIMP-3 expression in decidual and cells counteracts matrix metalloproteinases (MMPs), fine-tuning invasion to avoid pathological overreach. These regulatory actions ensure balanced activity essential for placental anchoring without disrupting maternal integrity. Decidualization also drives spiral artery remodeling via uterine natural killer (uNK) cells and decidual macrophages, which infiltrate vessels and induce endothelial apoptosis and extracellular matrix breakdown to create low-resistance conduits for maternal blood flow to the placenta. uNK cells secrete angiogenic factors such as vascular endothelial growth factor (VEGF) and placental growth factor (PlGF), while both cell types produce MMP-7 and MMP-9 to degrade vessel walls, enabling EVT-mediated replacement of smooth muscle with fibrinoid deposits. This remodeling, initiated in the first trimester, transforms high-resistance spiral arteries into dilated, low-resistance vessels by week 8, optimizing uteroplacental perfusion for fetal development. The decidual () further contributes by integrating with layers in , anchoring the and facilitating nutrient exchange across the maternal-fetal interface. Decidual fibroblasts, post-decidualization, deposit ECM components like and that form stable attachments with anchoring villi, supporting proliferation and villous expansion for efficient diffusion of oxygen and nutrients. Recent studies highlight how this ECM scaffold, enriched by decidual secretions, maintains barrier integrity while allowing selective egress. Emerging 2025 research on crosstalk between decidual (dNK) cells and EVTs underscores -mediated regulation of , where on EVTs binds KIR2DL4 on dNKs to activate signaling, promoting secretion of pro-invasive cytokines like IL-8 and IP-10. This interaction balances with controlled , preventing rejection while ensuring adequate placental ; disruptions in this pathway correlate with implantation failures. dNK subsets, particularly those expressing high KIR2DL1/2/3, fine-tune these responses to support early placental .

Maintenance of Gestation and Immune Tolerance

Decidualization plays a crucial role in establishing immune privilege at the maternal-fetal interface, where regulatory T cells (Tregs) in the decidua suppress alloreactive immune responses to prevent fetal rejection. Decidual Tregs express inhibitory molecules such as CTLA-4, CD25, and PD-L1, while secreting anti-inflammatory cytokines like IL-10 and TGF-β to constrain effector T cell activity and maintain tolerance toward paternal antigens expressed by the fetus. IL-10, produced by decidual cells and trophoblasts, further dampens pro-inflammatory responses by promoting Treg homeostasis and inhibiting Th1/Th17-mediated immunity, ensuring a tolerogenic environment throughout gestation. Hormonal signals from the sustain decidualization by maintaining elevated progesterone levels essential for gestational stability. (hCG), secreted by syncytiotrophoblasts, stimulates the to produce progesterone, which in turn supports ongoing and secretory functions of decidual stromal cells. This feedback loop prevents luteolysis and sustains the decidual , providing metabolic and structural support for the developing . Decidual cells contribute to structural integrity by forming a barrier that shields the from ascending infections, augmented by the production of such as β-defensins. These peptides, including human β-defensin-1 and -2 expressed in decidual and placental tissues, exhibit broad-spectrum activity against , viruses, and fungi, enhancing innate defense at the interface. The robust secreted by decidual cells further reinforces this barrier, limiting invasion while permitting controlled migration. In late , decidual tissue undergoes gradual regression following placental formation, orchestrated by pathways that ensure timely breakdown and initiation of labor. in decidual stromal cells triggers the (SASP), releasing pro-inflammatory factors that promote tissue remodeling without compromising mid- stability. Recent 2025 reviews highlight how /p21 and / pathways regulate this , facilitating decidual involution and preventing prolonged pregnancy complications. Decidual cells manage from placental metabolism through activation of NRF2 and pathways, protecting against (ROS)-induced damage. NRF2 transcriptionally upregulates genes in response to ROS, mitigating and in decidual tissue during heightened metabolic demands. , induced in decidual stromal cells, clears damaged organelles and maintains balance, supporting cell survival and functional integrity under oxidative pressure.

Pathophysiological Implications

In Infertility and Implantation Disorders

Infertility affects approximately 10-15% of couples worldwide, with decidualization defects implicated in a substantial portion of cases, particularly unexplained and recurrent implantation failure (RIF). These defects disrupt the endometrial transformation necessary for implantation. Dysregulation in key pathways, including those involving FOXO1 and (PR), contributes to impaired decidualization and associated . For instance, dysregulation of FOXO1, a critical regulator of progesterone-dependent endometrial differentiation, correlates with reduced endometrial receptivity and establishment. Anomalies in PR signaling pathways hinder the hormonal cues required for proper stromal responsiveness. In , impaired decidualization manifests as reduced secretion of (PRL) and insulin-like growth factor-binding protein 1 (IGFBP-1), key markers of stromal differentiation. Studies of endometrial stromal cells from women with show significantly lower PRL and IGFBP-1 levels during decidualization compared to fertile controls, indicating defective responsiveness to progesterone. This impairment is observed in up to 62.5% of cases in some cohorts of infertile women, highlighting its prevalence in otherwise where no structural or ovulatory issues are evident. The reduced secretion disrupts the secretory and supportive environment needed for implantation, contributing to cycles of failed conception. Recurrent implantation failure (RIF), defined as the absence of pregnancy after multiple transfers in assisted reproduction, often stems from defective endometrial stromal responsiveness to progesterone during decidualization. Functional impairment of HOXA10, such as through enhanced sumoylation, is associated with , leading to altered expression of implantation-related genes. For example, enhanced sumoylation of HOXA10 inhibits decidualization and attachment , directly linking this molecular defect to implantation incompetence. Additionally, progesterone resistance in the exacerbates these issues, impairing the window of implantation and resulting in repeated failures despite viable embryos. Defects in decidualization also contribute to early through inadequate vascular remodeling and poor . Insufficient stromal differentiation fails to support the invasion of cells and spiral artery transformation, compromising nutrient supply to the developing . Recent studies, including those from 2024, have linked these defects to imbalances in decidual cells, where elevated cause mitochondrial damage and reduced cell survival, predisposing to spontaneous . In particular, stalled or weakened decidual reactions correlate more strongly with miscarriage recurrence than other factors like uterine expansion. Diagnostic approaches increasingly rely on decidualization assays to predict IVF success, offering a functional of endometrial . These assays measure PRL and IGFBP-1 from patient-derived stromal cells exposed to progesterone and , with lower outputs indicating decidualization defects and poorer implantation outcomes. Such markers have shown promise in identifying women at risk for or , enabling personalized IVF strategies, though broader validation is ongoing.

Associations with Endometriosis and Other Gynecological Conditions

In , the eutopic exhibits progesterone resistance, which disrupts the normal progesterone-dependent signaling required for effective decidualization of endometrial stromal cells. This resistance is associated with impaired expression of key transcription factors such as FOXO1 and HOXA10, which are essential for stromal cell differentiation and receptivity during the implantation window. Studies have shown that reduced HOXA10 levels in the eutopic of women with correlate with defective decidualization markers, including and IGFBP-1 secretion. In (PCOS), directly inhibits endometrial stromal cell differentiation by interfering with progesterone-responsive pathways, leading to suboptimal decidualization. Elevated androgens, such as , alter the expression of decidualization regulators like PDK4, resulting in reduced stromal responsiveness to hormonal cues. This impaired process contributes to a characteristically thin , which compromises implantation success and increases the risk of early pregnancy loss. Adenomyosis impairs decidualization through molecular pathway dysregulation, leading to incomplete decidual transformation and reduced endometrial receptivity. Similarly, uterine fibroids (leiomyomas) impair vascular changes by promoting local and dysregulated , which affect spiral artery remodeling and nutrient delivery to the implantation site. Elevated (VEGF) levels in fibroid tissues further exacerbate these disruptions, altering the required for healthy decidual progression. At the molecular level, epigenetic silencing of decidualization-related genes, such as those encoding HOXA10, occurs through hypermethylation of promoter regions in endometriotic , suppressing progesterone-induced . Inflammatory cytokines, particularly IL-6, further impair the process by promoting a pro-inflammatory microenvironment that inhibits . This cytokine-driven overrides progesterone effects, leading to persistent activation of pathways and reduced expression of decidual markers. Clinically, decidualization defects in elevate the risk of by compromising the endometrium's ability to support proper embryo attachment and invasion. Additionally, accelerated in the , driven by and inflammatory signals like IL-1β, contributes to premature arrest and impaired maintenance. This is linked to upregulated and p21 expression, further exacerbating implantation failures and adverse pregnancy outcomes. As of 2025, emerging research highlights potential therapeutic targets, such as modulating pathways in decidual cells to mitigate recurrent spontaneous risks associated with these defects.

Current Research and Models

In Vitro and Animal Models

models of decidualization primarily utilize primary endometrial stromal cells (ESCs) isolated from samples and cultured in the presence of (MPA) combined with (cAMP) analogs, such as 8-bromo-cAMP, to mimic progesterone-driven differentiation over 8–14 days. These conditions induce characteristic morphological changes, including cell enlargement and secretion, allowing researchers to study decidual markers like IGFBP1 and FOXM1 without the need for implantation cues. To quantify decidualization progression, protocols employ high-content imaging and automated analysis of cellular morphology, such as area, circularity, and , enabling early detection of phenotypic shifts as soon as 2 days post-induction. These image-based methods provide objective metrics for evaluating treatment effects, surpassing traditional biochemical assays in sensitivity and throughput. Advancements in three-dimensional (3D) models include endometrial organoids derived from primary ESCs or stem cells, which incorporate (ECM) components like to recapitulate stromal architecture and facilitate immune interactions. Co-cultures of decidual organoids with organoids simulate maternal-fetal interfaces, revealing reduced viral susceptibility in co-cultured due to trophoblast-derived signals that enhance innate immune responses. Animal models, particularly in , rely on pseudopregnancy induced by with vasectomized males or progesterone to trigger decidualization, often via artificial stimuli like oil injection to mimic implantation. However, mouse decidualization is strictly implantation-dependent and lacks the spontaneous progesterone-initiated seen in humans during the . Key limitations of models include the absence of a true and spontaneous decidualization, which restricts their applicability to reproductive disorders involving pre-implantation endometrial changes. Emerging induced pluripotent stem cell (iPSC)-derived ESCs offer a solution by enabling personalized studies of decidualization in patient-specific genetic contexts, bypassing ethical and availability issues with primary tissues. Recent advances in 2024 metabolic profiling of decidualized ESCs have highlighted upregulated , including and pathways, as critical for and survival. These findings underscore ' role in modulating decidual plasticity, with inhibitors disrupting expression and cell morphology.

Emerging Therapeutic Targets and Future Directions

Recent research has identified several molecular targets for enhancing decidualization in cases of progesterone resistance, particularly in conditions like . Histone-modifying enzymes, such as those involved in epigenetic regulation, have emerged as potential therapeutic avenues to improve decidualization in eutopic from women with by counteracting impaired . Additionally, modulation of the SUMOylation pathway has been shown to sensitize endometrial s to progesterone signaling, promoting robust decidualization during hormone-induced . FOXO1, a critical in decidualization, has been targeted through upstream regulators like SOX4, which stabilizes and enhances FOXO1 expression to drive transformation; agonists or mimetics of FOXO1 signaling pathways hold promise for augmenting in resistant cases. Senescence modulation represents a promising strategy to address defective , with 2025 studies demonstrating that senolytics—such as , , and —effectively clear endometrial stromal cells, thereby enhancing the decidualization capacity of remaining cells and balancing autophagy-related pathways in the . These agents remove (SASP) burdens that impair differentiation, potentially restoring endometrial receptivity in contexts. Metabolic interventions targeting are also under investigation. AMPK activators, including metformin and , have been shown to mitigate in decidual cells by promoting sestrin 2/AMPK/ signaling, thereby supporting uterine receptivity and reducing risks of in preclinical models. In decidual defects, inhibitors of dysregulated sphingolipid synthesis, such as serine palmitoyltransferase (SPT) blockers, may normalize metabolic flux, as excessive production disrupts stromal differentiation while controlled inhibition preserves essential pathways for implantation. Future directions emphasize advanced profiling techniques to uncover decidual heterogeneity and improve clinical outcomes. Single-cell RNA sequencing (scRNA-seq) has revealed dynamic transcriptional landscapes during decidualization, highlighting subpopulations and their metabolic reprogramming, which could guide personalized therapies for implantation failures. AI-driven models are emerging to predict decidualization success in IVF by analyzing endometrial imaging and molecular data, achieving high accuracy in predictions for receptivity and pregnancy outcomes. As of 2025, ongoing efforts include validation of (PRL)-based biomarkers for assessing decidualization status in recurrent implantation failure, leveraging PRL's role as a key secretory marker to stratify patients. approaches targeting epigenetic defects, such as those involving HOXA11 or modifications, show potential for correcting genetic disruptions in decidualization, though clinical translation remains exploratory.

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