多巴胺受体D4

位於11號人類染色體的基因

多巴胺受體D4是一種由DRD4基因編碼的G蛋白偶聯受體[6]

多巴胺受體D4
識別號
別名DRD4;, D4DR, dopamine receptor D4
外部IDOMIM126452 MGI94926 HomoloGene20215 GeneCardsDRD4
為以下藥物的標靶
PF-592379、​羅替戈汀、​A-412997、​ABT-670、​多巴胺、​fenoldopam、​quinpirole、​WAY-100635、​阿樸嗎啡、​過乳降、​麥角乙脲、​培高利特、​roxindole、​溴隱亭、​布他拉莫、​氯丙嗪、​氯氮平、​eticlopride、​氟哌啶醇、​L745870、​洛沙平、​5-chloro-2-methoxy-4-(methylamino)-N-(2-methyl-1-(phenylmethyl)-3-pyrrolidinyl)benzamide、​perospirone、​吡貝地爾、​普樂明、​sertindole、​sonepiprazole、​spiperone、​levosulpiride、​特麥角脲、​三氟拉嗪、​zotepine、​匹莫齊特、​氟哌利多、​氟哌啶醇、​阿樸嗎啡、​thioridazine hydrochloride、​bromocriptine mesylate、​chlorpromazine hydrochloride、​pergolide mesylate、​promazine hydrochloride[1]
基因位置(人類
11號染色體
染色體11號染色體[2]
11號染色體
多巴胺受體D4的基因位置
多巴胺受體D4的基因位置
基因座11p15.5起始637,269 bp[2]
終止640,706 bp[2]
RNA表現模式
查閱更多表現資料
直系同源
物種人類小鼠
Entrez
Ensembl
UniProt
mRNA​序列

NM_000797

NM_007878

蛋白序列

NP_000788

NP_031904

基因位置​(UCSC)Chr 11: 0.64 – 0.64 MbChr 7: 140.87 – 140.88 Mb
PubMed​查找[4][5]
維基資料
檢視/編輯人類檢視/編輯小鼠

和其他多巴胺受體亞型一樣, D4受體由神經傳導物質——多巴胺活化。它與思覺失調症,帕金森症,躁鬱症,上癮行為,以及諸如厭食症, 貪食症暴食症神經性進食紊亂症等許多神經學或心理學狀況相關。

此受體也是許多治療思覺失調症帕金森症的靶標. D4受體被認為與D2-類似,被活化的受體抑制腺苷酸環化酶,從而減少細胞內第二資訊傳遞質環磷腺苷的濃度。[7]

基因學

此人體蛋白由 11號染色體上位於11p15.5的基因DRD4編碼。

人類基因中有輕微的變化(變異/多態):

  • 外顯子3的一處48-鹼基對VNTR
  • 啟動子中的C-521T
  • 外顯子1中鹼基235至247的13-鹼基對刪除
  • 外顯子I中12鹼基對重複。[8]
  • Val194Gly
  • 120bp處的多態串聯重複

此基因的變異與多種行為表型相關,包括自主神經系統失常,注意缺陷障礙[9] 思覺失調症,[10] 以及尋求新奇的人格特徵。[11]

48-鹼基對VNTR(可變數量串聯重複)

外顯子3中的48-鹼基對可變數量串聯重複(VNTR)有2至11次重複。 等位基因的頻率在人群中變化很大,例如,7-重複版本在美洲很高而在亞洲則很低。[12] 「長」版本的多態基因是重複6到10次的等位基因。7R對多巴胺分子的反應強度似乎要略弱一些。[13]


'長DRD4'變體, 或更具體地即7重複(7R),鬆散地與形成ADHD [14] 以及其它的心理特徵和異常的易感性相關。

48-鹼基對VNTR已經成為了在跨文化環境下對其在人類行為的進化和角色方面所作出的諸多推測的主題。7R等位基因似乎在4萬年前就已經被選擇出來。[12] 1999年,陳(音)及其同事[15] 觀察到那些在過去3萬年到1萬年間遷移得比較遠的人類群體帶有7R/長等位基因的頻率較高。他們也指出遊牧人群帶有7R等位基因的頻率比定居人群高。 較近期,也有觀察到擁有7R等位基因的游牧人阿里爾人健康狀況更好。然而,定居不久的(非游牧)帶有7R等位基因的阿里爾人似乎有輕微的健康退化狀況。[16]

尋奇性格

儘管有關於DRD4 48鹼基對VNTR與「尋奇性格」(具有愛探索和愛刺激人的一種性格特質)之間關聯的早期發現,[17][18] 2008年的一項 統合分析對比了36份出版了的關於「尋奇性格」和多態性的研究,沒有找到有效相關性。關於11份研究的統合分析確發現了基因的另一多態性——-521C/T顯示出與「尋奇性格」的聯繫。[19] 。究其各種情況,「尋奇」行為可能是由幾個基因介導的,僅歸因於DRD4本身所造成的變化並不是特別大。

認知發展

有一些研究指出育兒過程可能影響帶有DRD4 7-重複等位基因兒童的認知發展[20] 具有母性感受、正念和自治支持的育兒過程在15個月時對兒童後來在18至20個月的執行性功能有益[20] 經歷較差育兒過程的兒童比那些有較好經歷者更衝動且更追求感官刺激。[20]高質量的育兒過程與兒童在四歲時較好的努力控制 相關。[20]

配體

 
代表性的D4-常見配體的化學結構

促效劑

  • WAY-100635: 全效 促效劑, 帶有5-HT1A拮抗組分[21]
  • A-412,997: 完全促效劑, 對超過79種不同的受體和離子通道選擇性>100倍。[22]
  • ABT-724 - 開發用於治療勃起功能障礙[23]
  • ABT-670 - 比ABT-724口服生物利用率高[24]
  • FAUC 316: 部分促效劑, 對其他多巴胺受體子類型選擇性>8600-fold倍[25]
  • FAUC 299: 部分促效劑[25]
  • (E)-1-芳基-3-(4-吡啶哌啶-1-基)丙酮肟[26]
  • PIP3EA: 部分促效劑[27]
  • Flibanserin - 部分促效劑
  • PD-168,077 - D4選擇性但也綁定到α1A, α2C 和 5HT1A
  • CP-226,269 - D4選擇性但也綁定到D2, D3, α2A, α2C 和 5HT1A
  • Ro10-5824 - 部分促效劑

受體拮抗劑

反促效劑

可參見

參考列表

  1. ^ 對多巴胺受体D4起作用的藥物;在維基數據上查看/編輯參考. 
  2. ^ 2.0 2.1 2.2 GRCh38: Ensembl release 89: ENSG00000069696、​ENSG00000276825 - Ensembl, May 2017
  3. ^ 3.0 3.1 3.2 GRCm38: Ensembl release 89: ENSMUSG00000025496 - Ensembl, May 2017
  4. ^ Human PubMed Reference:. National Center for Biotechnology Information, U.S. National Library of Medicine. 
  5. ^ Mouse PubMed Reference:. National Center for Biotechnology Information, U.S. National Library of Medicine. 
  6. ^ Van Tol HH, Bunzow JR, Guan HC, Sunahara RK, Seeman P, Niznik HB, Civelli O. Cloning of the gene for a human dopamine D4 receptor with high affinity for the antipsychotic clozapine. Nature. April 1991, 350 (6319): 610–4. PMID 1840645. doi:10.1038/350610a0. 
  7. ^ Neve KA, Seamans JK, Trantham-Davidson H. Dopamine receptor signaling. J. Recept. Signal Transduct. Res. August 2004, 24 (3): 165–205. PMID 15521361. doi:10.1081/RRS-200029981. 
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外部連結

多巴胺受體D4引用了美國國家醫學圖書館提供的資料,這些資料屬於公共領域