Epigenetics of dementia remains unraveled in Latin American and Caribbean populations: A call for collaborative efforts

IF 4.1 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Ariel Caviedes, Paulina Orellana, Cristian Ávila-Rincón, Agustín Ibáñez, Michael J. Corley, Hernando Santamaría-García, Claudia Duran-Aniotz, Carolina Ochoa-Rosales
{"title":"Epigenetics of dementia remains unraveled in Latin American and Caribbean populations: A call for collaborative efforts","authors":"Ariel Caviedes, Paulina Orellana, Cristian Ávila-Rincón, Agustín Ibáñez, Michael J. Corley, Hernando Santamaría-García, Claudia Duran-Aniotz, Carolina Ochoa-Rosales","doi":"10.1002/alz.14295","DOIUrl":null,"url":null,"abstract":"<p>Dementia is a major health issue in Latin America and the Caribbean (LAC), with a prevalence of 9.5% and an incidence of 26.0 per 1000 among people over 60 years. With cases expected to triple by 2050, there is an urgent need for more extensive local research in this field.<span><sup>1</sup></span> Despite advancements in neuroimaging and protein biomarkers, significant gaps remain in understanding how biological mechanisms that interact with LAC-specific environmental exposures influence dementia risk, presentation, and treatment. Interactions between genetic and environmental factors, mainly through epigenetic changes including DNA methylation (DNAm), noncoding RNA, and histone modifications, can modulate gene expression, altering molecular traits and health outcomes.<span><sup>2</sup></span> Adverse environmental exposures in LAC, including socioeconomic disparities, pollutants, unhealthy habits, and comorbidities, have been associated with higher dementia risk,<span><sup>1</sup></span> potentially through epigenetic mechanisms. Most existing knowledge on epigenetics is derived from studies conducted in Europe and the United States, which limits the generalization of these findings to underrepresented regions,<span><sup>3</sup></span> including LAC. To understand state-of-the-art epigenetic studies on dementia in LAC, we conducted a systematic review following the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) protocols. Our search focused on chemical modifications of the DNA or histones able to regulate chromatin's structure. We reviewed the literature up to May 2024 in MEDLINE, Web of Science, PubMed, and Scopus databases (research strategy and findings in Table 1). Surprisingly, we found only five case-control studies comparing late-onset Alzheimer's disease (LOAD)<span><sup>4-6</sup></span> or mild cognitive impairment (MCI)<span><sup>7, 8</sup></span> versus healthy controls, revealing a disparity in published studies on epigenetics and dementia in LAC. Further epigenetics research is needed in the region, including the use of cutting-edge methods, target tissues, and systematic approaches. Studies have investigated global DNAm (<i>LINE-1</i>).<span><sup>4</sup></span> DNAm in candidate genes.<span><sup>5, 6</sup></span> or genome-wide DNAm<span><sup>7, 8</sup></span> assessed in peripheral blood. Two studies were conducted in Colombian,<span><sup>4, 5</sup></span> two in Mexican-American (MA),<span><sup>7, 8</sup></span> and one in Costa Rican populations.<span><sup>6</sup></span> Three studies addressed sex<span><sup>4, 5</sup></span> or ethnic<span><sup>8</sup></span> differences in DNAm. The study conducted by Hernández et al. found no significant differences in <i>LINE-1</i> methylation across LOAD patients and controls, even after stratification by sex or <i>APOE4</i> genotypes.<span><sup>4</sup></span> Further, Salcedo-Tacuma et al. identified significantly lower DNAm levels at three CpGs at <i>BIN1</i> gene in LOAD patients.<span><sup>5</sup></span> In 2019, Pathak et al. reported differentially methylated CpGs in MCI individuals in an Epigenome-Wide Association Study (EWAS). These findings were linked to neuronal death, metabolic dysfunction, and inflammation.<span><sup>7</sup></span> In 2021, Coto-Vílchez et al. compared Horvath's epigenetic clock DNAm profiles to measure biological aging. Both LOAD patients and control group exhibited an average epigenetic age 20 years younger than their chronological age. Additionally, they identified differentially methylated regions at <i>PM20D1</i> across study groups.<span><sup>6</sup></span> Finally, Abraham Daniel et al. analyzed ethnicity-specific DNAm profiles in non-Hispanic whites and MA, identifying significant differential methylation at <i>CREBBP</i> gene associated with MCI and AD in MA participants.<span><sup>8</sup></span> These findings generally agree with previous evidence from other populations, suggesting distinctive DNAm patterns associated with dementia or impaired cognition, although some contradictions remain regarding differential epigenetic aging. Also, they provide evidence showing that genetic ancestry influences DNAm patterns. Overall, limitations of these studies include restricted sample size,<span><sup>4-7</sup></span> limited follow-up data for functional interpretation like gene expression, and the use of peripheral blood-derived methylation biomarkers while they may not reflect brain-specific alterations in dementia. Unfortunately, none of the reviewed articles investigated histone modifications.</p>\n<div>\n<header><span>TABLE 1. </span>Characteristics of the selected studies</header>\n<div tabindex=\"0\">\n<table>\n<thead>\n<tr>\n<th>Authors and year</th>\n<th>\n<p>LAC</p>\n<p>Population</p></th>\n<th>Sample size</th>\n<th>Epigenetic measurement examined</th>\n<th>Outcome measure</th>\n</tr>\n</thead>\n<tbody>\n<tr>\n<td>Hernández et al., 2013</td>\n<td>Colombia</td>\n<td>28 LOAD and 30 controls. Stratification by sex and ApoE4 allele.</td>\n<td>Global DNAm methylation (MS-HRM)</td>\n<td>No significant differential methylation at <i>LINE-1</i> gene.</td>\n</tr>\n<tr>\n<td>Salcedo-Tacuma et al., 2019</td>\n<td>Colombia</td>\n<td>50 LOAD and 50 controls. Stratification by age, sex, and ApoE4 allele.</td>\n<td>Candidate gene (Bisulfite conversion and PCR)</td>\n<td>LOAD patients showed significantly lower DNAm at three CpGs at <i>BIN1</i> gene: CpG26, CpG44, and CpG87.</td>\n</tr>\n<tr>\n<td>Pathak et al., 2019</td>\n<td>Mexican American</td>\n<td>45 MCI and 45 controls. MA has a high metabolic risk score, less years of education and a lower frequency of the ApoE4 allele.</td>\n<td>EWAS (Infinium MethylationEPIC BeadChip)</td>\n<td>\n<p>Four CpG sites significantly hypomethylated in MCI subjects compared to controls: cg25016219 (<i>KLHL29</i> gene), cg26479998 (<i>SEPT9</i> gene), cg02586267 (not mapped), and cg18978297 (<i>CPLX3</i> gene).</p>\n<p>Six CpG sites significantly hypermethylated in MCI subject compared to controls: cg22360048 (<i>PKIB</i> gene), cg20904111 (intergenic), cg05917713 (<i>BCL2L2-PABPN1</i> gene), cg20201669 (<i>OR2C3</i> gene), cg14179796 (<i>CCNY</i> gene), cg22327037 (intergenic).</p></td>\n</tr>\n<tr>\n<td>Coto-Vílchez et al., 2021</td>\n<td>Costa Rica</td>\n<td>11 LOAD and 21 controls. All female participants were over 90 years old, with educational backgrounds ranging from 0 to 9 years.</td>\n<td>EWAS (Infinium MethylationEPIC BeadChip) and Horvath´s epigenetic clock</td>\n<td>\n<p>The LOAD patients and the control group had an epigenetic age of 20 years younger than their chronological age.</p>\n<p>Significantly higher methylation at the <i>PM20D1</i> gene in individuals who were heterozygotes (AG) for rs708727 than GG genotype individuals.</p></td>\n</tr>\n<tr>\n<td>Abraham Daniel et al. 2023</td>\n<td>Mexican American</td>\n<td>122 AD/MCI and 177 controls. Stratification by sex, age, years of education, and ApoE4 allele</td>\n<td>EWAS (Infinium MethylationEPIC BeadChip)</td>\n<td>Significantly hypermethylated CpG site at <i>CREBBP</i> (cg13135255) in cognitively impaired participants (AD/MCI) compared to controls.</td>\n</tr>\n</tbody>\n</table>\n</div>\n<div>\n<ul>\n<li><i>Note</i>: For dementia, the search terms used were: “alzheimer's disease,” “AD,” “dementia,” “frontotemporal dementia,” “FTD,” “frontotemporal lobar degeneration,” “apoliprotein e,” and “ApoE.” For epigenetics, the terms used included: “epigenetic,” “epigenomic,” “DNA methylation,” “histone modification,” “epigenome-wide association study,” and “EWAS”. The country-specific terms included the names of all countries within Latin America and the Caribbean (LAC).</li>\n<li>Abbreviations: DNAm, DNA methylation; EWAS, Epigenome-Wide Association Study; LOAD, late-onset Alzheimer's disease; MCI, mild cognitive impairment; MS-HRM, methylation-sensitive high-resolution melting.</li>\n</ul>\n</div>\n<div></div>\n</div>\n<p>Despite the limited number of identified studies, their positive quality assessment by the Newcastle-Ottawa scale (6 to 8 points) suggests considerable potential for conducting meaningful research and providing valuable insights into the epigenetic landscape of dementia within the region. Given the scarce but encouraging evidence, it is imperative to promote further efforts to unravel LAC-specific epigenetic biomarkers of dementia. We advocate for coordinated and systematic joint efforts to guide future studies relevant to the context of the region.</p>\n<div>In conclusion, we call for actions to address the gaps in epigenetics-dementia research in LAC by: <ol start=\"1\">\n<li>\n<p>Stimulating local epigenetics research and leveraging consortia for the study of dementia, like ReDLat, LAC-CD, or UNITED Consortium,<span><sup>9, 10</sup></span> to enhance collaboration, interdisciplinarity, and harmonization across studies.</p>\n</li>\n<li>\n<p>Assessing the research landscape of the region, to identify gaps, strengths, limitations, and opportunities. This knowledge will serve for the planification of further efforts in the field.</p>\n</li>\n<li>\n<p>Strengthening local research capacities by empowering LAC researchers through tailored training and funding opportunities.</p>\n</li>\n</ol>\n</div>\n<p>We believe these efforts are essential for understanding the role of gene-environment interplay in dementia development in LAC.</p>","PeriodicalId":13,"journal":{"name":"ACS Chemical Neuroscience","volume":"72 1","pages":""},"PeriodicalIF":4.1000,"publicationDate":"2024-11-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ACS Chemical Neuroscience","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1002/alz.14295","RegionNum":3,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}
引用次数: 0

Abstract

Dementia is a major health issue in Latin America and the Caribbean (LAC), with a prevalence of 9.5% and an incidence of 26.0 per 1000 among people over 60 years. With cases expected to triple by 2050, there is an urgent need for more extensive local research in this field.1 Despite advancements in neuroimaging and protein biomarkers, significant gaps remain in understanding how biological mechanisms that interact with LAC-specific environmental exposures influence dementia risk, presentation, and treatment. Interactions between genetic and environmental factors, mainly through epigenetic changes including DNA methylation (DNAm), noncoding RNA, and histone modifications, can modulate gene expression, altering molecular traits and health outcomes.2 Adverse environmental exposures in LAC, including socioeconomic disparities, pollutants, unhealthy habits, and comorbidities, have been associated with higher dementia risk,1 potentially through epigenetic mechanisms. Most existing knowledge on epigenetics is derived from studies conducted in Europe and the United States, which limits the generalization of these findings to underrepresented regions,3 including LAC. To understand state-of-the-art epigenetic studies on dementia in LAC, we conducted a systematic review following the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) protocols. Our search focused on chemical modifications of the DNA or histones able to regulate chromatin's structure. We reviewed the literature up to May 2024 in MEDLINE, Web of Science, PubMed, and Scopus databases (research strategy and findings in Table 1). Surprisingly, we found only five case-control studies comparing late-onset Alzheimer's disease (LOAD)4-6 or mild cognitive impairment (MCI)7, 8 versus healthy controls, revealing a disparity in published studies on epigenetics and dementia in LAC. Further epigenetics research is needed in the region, including the use of cutting-edge methods, target tissues, and systematic approaches. Studies have investigated global DNAm (LINE-1).4 DNAm in candidate genes.5, 6 or genome-wide DNAm7, 8 assessed in peripheral blood. Two studies were conducted in Colombian,4, 5 two in Mexican-American (MA),7, 8 and one in Costa Rican populations.6 Three studies addressed sex4, 5 or ethnic8 differences in DNAm. The study conducted by Hernández et al. found no significant differences in LINE-1 methylation across LOAD patients and controls, even after stratification by sex or APOE4 genotypes.4 Further, Salcedo-Tacuma et al. identified significantly lower DNAm levels at three CpGs at BIN1 gene in LOAD patients.5 In 2019, Pathak et al. reported differentially methylated CpGs in MCI individuals in an Epigenome-Wide Association Study (EWAS). These findings were linked to neuronal death, metabolic dysfunction, and inflammation.7 In 2021, Coto-Vílchez et al. compared Horvath's epigenetic clock DNAm profiles to measure biological aging. Both LOAD patients and control group exhibited an average epigenetic age 20 years younger than their chronological age. Additionally, they identified differentially methylated regions at PM20D1 across study groups.6 Finally, Abraham Daniel et al. analyzed ethnicity-specific DNAm profiles in non-Hispanic whites and MA, identifying significant differential methylation at CREBBP gene associated with MCI and AD in MA participants.8 These findings generally agree with previous evidence from other populations, suggesting distinctive DNAm patterns associated with dementia or impaired cognition, although some contradictions remain regarding differential epigenetic aging. Also, they provide evidence showing that genetic ancestry influences DNAm patterns. Overall, limitations of these studies include restricted sample size,4-7 limited follow-up data for functional interpretation like gene expression, and the use of peripheral blood-derived methylation biomarkers while they may not reflect brain-specific alterations in dementia. Unfortunately, none of the reviewed articles investigated histone modifications.

TABLE 1. Characteristics of the selected studies
Authors and year

LAC

Population

Sample size Epigenetic measurement examined Outcome measure
Hernández et al., 2013 Colombia 28 LOAD and 30 controls. Stratification by sex and ApoE4 allele. Global DNAm methylation (MS-HRM) No significant differential methylation at LINE-1 gene.
Salcedo-Tacuma et al., 2019 Colombia 50 LOAD and 50 controls. Stratification by age, sex, and ApoE4 allele. Candidate gene (Bisulfite conversion and PCR) LOAD patients showed significantly lower DNAm at three CpGs at BIN1 gene: CpG26, CpG44, and CpG87.
Pathak et al., 2019 Mexican American 45 MCI and 45 controls. MA has a high metabolic risk score, less years of education and a lower frequency of the ApoE4 allele. EWAS (Infinium MethylationEPIC BeadChip)

Four CpG sites significantly hypomethylated in MCI subjects compared to controls: cg25016219 (KLHL29 gene), cg26479998 (SEPT9 gene), cg02586267 (not mapped), and cg18978297 (CPLX3 gene).

Six CpG sites significantly hypermethylated in MCI subject compared to controls: cg22360048 (PKIB gene), cg20904111 (intergenic), cg05917713 (BCL2L2-PABPN1 gene), cg20201669 (OR2C3 gene), cg14179796 (CCNY gene), cg22327037 (intergenic).

Coto-Vílchez et al., 2021 Costa Rica 11 LOAD and 21 controls. All female participants were over 90 years old, with educational backgrounds ranging from 0 to 9 years. EWAS (Infinium MethylationEPIC BeadChip) and Horvath´s epigenetic clock

The LOAD patients and the control group had an epigenetic age of 20 years younger than their chronological age.

Significantly higher methylation at the PM20D1 gene in individuals who were heterozygotes (AG) for rs708727 than GG genotype individuals.

Abraham Daniel et al. 2023 Mexican American 122 AD/MCI and 177 controls. Stratification by sex, age, years of education, and ApoE4 allele EWAS (Infinium MethylationEPIC BeadChip) Significantly hypermethylated CpG site at CREBBP (cg13135255) in cognitively impaired participants (AD/MCI) compared to controls.
  • Note: For dementia, the search terms used were: “alzheimer's disease,” “AD,” “dementia,” “frontotemporal dementia,” “FTD,” “frontotemporal lobar degeneration,” “apoliprotein e,” and “ApoE.” For epigenetics, the terms used included: “epigenetic,” “epigenomic,” “DNA methylation,” “histone modification,” “epigenome-wide association study,” and “EWAS”. The country-specific terms included the names of all countries within Latin America and the Caribbean (LAC).
  • Abbreviations: DNAm, DNA methylation; EWAS, Epigenome-Wide Association Study; LOAD, late-onset Alzheimer's disease; MCI, mild cognitive impairment; MS-HRM, methylation-sensitive high-resolution melting.

Despite the limited number of identified studies, their positive quality assessment by the Newcastle-Ottawa scale (6 to 8 points) suggests considerable potential for conducting meaningful research and providing valuable insights into the epigenetic landscape of dementia within the region. Given the scarce but encouraging evidence, it is imperative to promote further efforts to unravel LAC-specific epigenetic biomarkers of dementia. We advocate for coordinated and systematic joint efforts to guide future studies relevant to the context of the region.

In conclusion, we call for actions to address the gaps in epigenetics-dementia research in LAC by:
  1. Stimulating local epigenetics research and leveraging consortia for the study of dementia, like ReDLat, LAC-CD, or UNITED Consortium,9, 10 to enhance collaboration, interdisciplinarity, and harmonization across studies.

  2. Assessing the research landscape of the region, to identify gaps, strengths, limitations, and opportunities. This knowledge will serve for the planification of further efforts in the field.

  3. Strengthening local research capacities by empowering LAC researchers through tailored training and funding opportunities.

We believe these efforts are essential for understanding the role of gene-environment interplay in dementia development in LAC.

痴呆症的表观遗传学在拉丁美洲和加勒比地区的人群中仍未解开:呼吁共同努力
痴呆症是拉丁美洲和加勒比地区(LAC)的一个主要健康问题,在 60 岁以上人群中的患病率为 9.5%,发病率为千分之 26.0。1 尽管神经影像学和蛋白质生物标志物取得了进步,但在了解生物机制如何与拉丁美洲和加勒比地区特有的环境暴露相互作用,从而影响痴呆症的风险、表现和治疗方面,仍然存在巨大的差距。遗传因素与环境因素之间的相互作用,主要是通过表观遗传学变化(包括 DNA 甲基化 (DNAm)、非编码 RNA 和组蛋白修饰)来调节基因表达,从而改变分子特征和健康结果。2 拉丁美洲和加勒比海地区的不良环境暴露,包括社会经济差异、污染物、不健康的生活习惯和合并症,与痴呆症的高风险相关,1 可能是通过表观遗传学机制。关于表观遗传学的现有知识大多来自于在欧洲和美国进行的研究,这限制了将这些发现推广到包括拉丁美洲和加勒比地区在内的代表性不足的地区3。为了了解有关拉丁美洲和加勒比地区痴呆症的最新表观遗传学研究,我们按照系统综述和元分析首选报告项目(PRISMA)协议进行了系统综述。我们的搜索重点是能够调节染色质结构的 DNA 或组蛋白化学修饰。我们查阅了 MEDLINE、Web of Science、PubMed 和 Scopus 数据库中截至 2024 年 5 月的文献(研究策略和结果见表 1)。令人惊讶的是,我们发现只有五项病例对照研究将晚发性阿尔茨海默病(LOAD)4-6 或轻度认知障碍(MCI)7、8 与健康对照进行了比较,这揭示了已发表的关于拉丁美洲和加勒比地区表观遗传学与痴呆症的研究存在差异。该地区需要进一步开展表观遗传学研究,包括使用前沿方法、靶组织和系统方法。有研究调查了全球 DNAm(LINE-1)、4 候选基因中的 DNAm5、6 或外周血中评估的全基因组 DNAm7、8。两项研究在哥伦比亚人中进行,4、5 两项在墨西哥裔美国人(MA)中进行,7、8 一项在哥斯达黎加人群中进行。4 此外,Salcedo-Tacuma 等人发现 LOAD 患者 BIN1 基因中三个 CpGs 的 DNAm 水平显著较低。这些发现与神经元死亡、代谢功能障碍和炎症有关。7 2021 年,Coto-Vílchez 等人比较了 Horvath 的表观遗传时钟 DNAm 图谱,以衡量生物衰老。LOAD 患者和对照组的平均表观遗传年龄比他们的实际年龄小 20 岁。6 最后,Abraham Daniel 等人分析了非西班牙裔白人和马萨诸塞州人的特定种族 DNAm 图谱,在马萨诸塞州参与者中发现了与 MCI 和 AD 相关的 CREBBP 基因的显著甲基化差异。8 这些发现与之前其他人群的证据基本一致,表明与痴呆症或认知功能受损相关的独特 DNAm 模式,尽管在表观遗传衰老差异方面仍存在一些矛盾。此外,这些研究还提供了遗传祖先影响 DNAm 模式的证据。总体而言,这些研究的局限性包括样本量有限、4-7 对基因表达等功能解释的随访数据有限,以及使用了外周血甲基化生物标记物,而这些标记物可能无法反映痴呆症中大脑特异性的改变。遗憾的是,所有综述文章都没有研究组蛋白修饰。所选研究的特点作者和年份拉丁美洲和加勒比海地区人群样本大小所研究的表观遗传学测量结果Hernández等人,2013哥伦比亚28例LOAD和30例对照。根据性别和载脂蛋白E4等位基因进行分层。全局DNA甲基化(MS-HRM)在LINE-1基因上没有显著的甲基化差异。Salcedo-Tacuma等人,2019哥伦比亚50名LOAD和50名对照。候选基因(亚硫酸氢盐转换和 PCR)LOAD 患者在 BIN1 基因的三个 CpGs 上的 DNAm 值明显较低:CpG26、CpG44和CpG87.Pathak等人,2019美籍墨西哥人45例MCI和45例对照。墨西哥裔美国人的代谢风险评分较高,受教育年限较短,载脂蛋白E4等位基因的频率较低。 EWAS(Infinium MethylationEPIC BeadChip)与对照组相比,MCI 受试者中有四个 CpG 位点明显低甲基化:cg25016219(KLHL29 基因)、cg26479998(SEPT9 基因)、cg02586267(未映射)和 cg18978297(CPLX3 基因)。与对照组相比,MCI 受试者中有六个 CpG 位点明显高甲基化:cg22360048(PKIB 基因)、cg20904111(基因间)、cg05917713(BCL2L2-PABPN1 基因)、cg20201669(OR2C3 基因)、cg14179796(CCNY 基因)、cg22327037(基因间)、2021Costa Rica11 例 LOAD 和 21 例对照。EWAS(Infinium MethylationEPIC BeadChip)和 Horvath 的表观遗传时钟,LOAD 患者和对照组的表观遗传年龄比他们的实际年龄小 20 岁。按性别、年龄、受教育年限和 ApoE4 等位基因进行分层EWAS(Infinium MethylationEPIC BeadChip)与对照组相比,认知障碍参与者(AD/MCI)CREBBP 的 CpG 位点(cg13135255)明显甲基化过高:注:对于痴呆症,使用的检索词包括:"阿尔茨海默病"、"AD"、"痴呆症"、"额颞叶痴呆症"、"FTD"、"额颞叶变性"、"脂蛋白 e "和 "载脂蛋白 E"。表观遗传学的术语包括"表观遗传学"、"表观基因组"、"DNA 甲基化"、"组蛋白修饰"、"全表观基因组关联研究 "和 "EWAS"。国别术语包括拉丁美洲和加勒比地区(LAC)所有国家的名称:DNAm,DNA甲基化;EWAS,全表观基因组关联研究;LOAD,晚发性阿尔茨海默病;MCI,轻度认知障碍;MS-HRM,甲基化敏感性高分辨率熔解。尽管确定的研究数量有限,但纽卡斯尔-渥太华量表(6 到 8 分)对这些研究的质量给予了积极评价,这表明这些研究在开展有意义的研究方面具有相当大的潜力,并能为了解该地区痴呆症的表观遗传学状况提供有价值的见解。鉴于证据稀少但令人鼓舞,当务之急是进一步努力揭示拉丁美洲和加勒比地区特有的痴呆症表观遗传生物标志物。最后,我们呼吁采取行动,通过以下方式弥补拉丁美洲和加勒比地区表观遗传学-痴呆症研究的不足:促进当地的表观遗传学研究,利用痴呆症研究联盟(如 ReDLat、LAC-CD 或 UNITED Consortium)9、10 来加强研究间的合作、跨学科性和协调性。评估该地区的研究状况,找出差距、优势、局限性和机遇。这些知识将有助于规划该领域的进一步工作。通过有针对性的培训和资助机会,增强拉丁美洲和加勒比地区研究人员的能力,从而加强当地的研究能力。我们相信,这些努力对于了解基因-环境相互作用在拉丁美洲和加勒比地区痴呆症发展中的作用至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Chemical Neuroscience
ACS Chemical Neuroscience BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
9.20
自引率
4.00%
发文量
323
审稿时长
1 months
期刊介绍: ACS Chemical Neuroscience publishes high-quality research articles and reviews that showcase chemical, quantitative biological, biophysical and bioengineering approaches to the understanding of the nervous system and to the development of new treatments for neurological disorders. Research in the journal focuses on aspects of chemical neurobiology and bio-neurochemistry such as the following: Neurotransmitters and receptors Neuropharmaceuticals and therapeutics Neural development—Plasticity, and degeneration Chemical, physical, and computational methods in neuroscience Neuronal diseases—basis, detection, and treatment Mechanism of aging, learning, memory and behavior Pain and sensory processing Neurotoxins Neuroscience-inspired bioengineering Development of methods in chemical neurobiology Neuroimaging agents and technologies Animal models for central nervous system diseases Behavioral research
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