Difference between revisions of "Phosphatase Subfamily PPM1A"

Revision as of 08:20, 5 June 2015

Phosphatase Classification: Fold PPM (PP2C): Superfamily PPM (PP2C): Family PPM (PP2C): Subfamily PPM1A

Evolution

The PPM1A subfamily is found across holozoa.

PPM1A and PPM1B probably arose by gene duplication in vertebrates, but not through whole-genome duplication, as they do not locate in the same double-conserved synteny (see Genomicus).

PPM1N probably emerged in placentals and lost by independent evolutionary events in different lineages, as implied by internal orthology database and BLAST NR database. For BLAST, human PPM1N was defined as the hits that have a better (lower) E-values than human PPM1A and PPM1B.

Domains

The PPM1A subfamily has a single structural domain, the phosphatase domain. Human PPM1A and PPM1N have a predicted nuclear localization signal (NLS) at N-terminal. Human PPM1B dephosphorylates at least two transcription factors, but the NLS is weak by prediction. PPM1As from other organisms have weak NLS by prediction, as well.

Functions

The PPM1A subfamily regulates different signaling pathways, such as MAPK, SAPK/JNK, NF-kappaB, TGF-beta pathways.

Common substrates of human PPM1A and PPM1B

• IKKβ at Ser-177 and Ser-181. Both human PPM1A and PPM1B dephosphorylated IKKβ at Ser-177 and Ser-181 and termination of IKKβ-induced NF-κB activation [1, 2].
• CDK at Thr-186 in the T-loop. Both PPM1A and PPM1B dephosphorylated CDK9 at Thr-186 in the T-loop [3]. CDK9 is the catalytic subunit of a general RNA polymerase II elongation factor known as positive transcription elongation factor b (P-TEFb). The kinase function of P-TEFb requires phosphorylation of Thr-186 in the T-loop of Cdk9 to allow substrates to access the catalytic core of the enzyme [3].
• Moesin at Thr-588. Both PPM1A and PPM1B dephosphorylated the membrane-F-actin linking protein moesin at Thr-588, which is phosphorylated during activation of platelets [4].
• CDK2 at Thr-160 [5]. Interetingly, yeast has the ortholog of human CDK2, CDC28, but does not have the PPM1A subfamily. The yeast CDC28 was dephosphorylated by PTC2 and PTC3 [6]. PTC2 and PTC3 belong to another PPM subfamily PPM1G2, which is absent from human. However, another member of PPM1G2 subfamily in yeast, PTC4 has little activity towards CDC28 [6]. In general, the PPM1A subfamily and PPM1G2 subfamily are functional orthologs in the aspect of their phosphatase activity towards human CDK2 at Thr-160 and yeast CDC28 at Thr-169.

Different functions of PPM1A and PPM1B

PPM1A (PP2Cα)

Below are the substrates reported for PPM1A but not PPM1B, though PPM1B may dephosphorylate some of them:

• mGluR3 at Ser-845. mGluR3 is a metabotropic glutamate receptor 3. It interacted with PPM1A through a C-terminal region from 836 to 855. The region was specific for mGluR3 and was not found in mGluR2, which was its cloest gene in sequence. The region contained Ser-845 phosphorylated by PKA. As PPM1A dephosphorylated the region in vitro, it was probably dephosphorylated Ser-845 [7].
• RelA at Ser-536 and Ser-276. PPM1A directly dephosphorylated RelA at the two positions and selectively inhibited NF-kappaB pathway [8].
• p85 subunit of PI3K at Ser-608 [9].
• p38. PPM1A directly interacted with and dephosphorylated MAPK p38, classfied as CMGC:MAPK:p38 in Kinbase [10].
• MKK6. PPM1A dephosphorylated MAPKK MKK6, classified as STE:STE7:MEK3 in KinBase [10].
• SEK1. PPM1A dephosphorylated MAPKK SEK1, classified as STE:STE7:MEK4 in KinBase [10].
• Axin. PPM1A formed a complex with Dvl, beta-catenin, and Axin. It dephosphorylated Axin, a negative regulator of WNT signaling, both in vitro and in vivo. The dephosphorylation resulted in decreasing Axin's half-life. PPM1A therefore is a positive regulator of WNT signal [11].
• PKCdelta. In addition to PPM1A, PP1 and PP2A (PP3) can also dephosphorylate PKCdelta, albeit lower specific activity [12].
• SMAD1 and SMAD2/3 at SxS motif [13, 14]. SMADs are critical players in TGF-beta signaling. The dephosphorylation increases their nuclear exporter activity.
• RanBP3, nuclear exporter. PPM1A directly interacted with and dephosphorylated RanBP3 at Ser-58 both in vitro and in vivo. The dephosphorylation promoted RanBP3's ability to export Smad2/3 and terminate TGF-beta signaling [15].

In addition, PPM1A regulated cell cycle [16].

PPM1B (PP2Cβ)

PPM1B is expressed in a broad types of tissues, most abundantly in skeletal muscle as shown by RNA-seq data from GTEx and northern blot [17]. Below are the substrates reported for PPM1A but not PPM1B, though PPM1B may dephosphorylate some of them:

• TAK1 at Ser-192. PPM1B but not PPM1A associated with and dephosphorylated TAK1 in vitro [18]. TAK1 is a player in SAPK/JNK pathway, upstream of MKK4/MKK6 and JNK. It belongs to TKL group, MLK family and TAK1 subfamily according the KinBase classification. It emerged in holozoa. In the same study, it was shown that PPM1B did not dephosphorylate MKK6 and did not associate with MEKK3, MKK4, MKK6, JNK, or p38, which was dephosphorylated and inactivated by PPM1A [18].
• TBK1 at Ser-172. TBK1 is a kinase activates antiviral response. The dephosphorylation therefore results in negatively regulates antiviral response [19].
• PAX2 [20]. PAX2 is a transcription factor which is activated by the phosphorylation at Ser/Thr sites within its C-terminal activation domain, depending on WNT signals and JNK activity.
• PPARγ (peroxisome-proliferator-activated receptor γ) at Ser-112 [21]. PPARγis a nuclear receptor whose activity is altered by the phosphorylation state of Ser-112 and Ser-273. PPM1B can directly dephosphorylate PPARγ both in intact cells and in vitro. In addition, PPM1B specifically targeted Ser-112 rather than Ser-273, which increase PPARγ activity [21]..

PPM1B interacts with the proteins, but there is no direct evidence that they are the substrates:

• Erythroid Kruppel-like factor, a erythroid-specific transcription factor. Mouse Ppm1b probably has an indirect role in regulating EKLF turnover via its zinc finger domain [22].

PPM1B is phosphorylated by PKA at Ser-195 [23]. The Ser-195 is a signature of PPM1A subfamily, because 1) all PPM1A members have serine at the position, 2) PPMs of other subfamilies only have serine, occasionally.

PPM1B is modified with ISG15 at least through Lys-12 and Lys-142 [24]. ISG15 is an interferon-upregulated ubiquitin-like protein, which is covalently conjugated to various cellular proteins (ISGylation). ISG15 is found mainly in marsupials and placentals. In comparison, Lys-12 is found in all vertebrate PPM1Bs and PPM1As. Lys-142 is only found in primate and eutheria PPM1Bs, and was replaced by Thr in rodent PPM1B, by Asp or Glu even Ser in marsupial, reptile and fish PPM1Bs, by Gln and Ser even His in PPM1A.

Human PPM1N

PPM1N's function is unknown. It is generally expressed at low level across tissues except spleen (see RNA-seq data from GTEx).

Fruit fly alph (alphabet): negatively regulates RAS/MAPK and SAPK/JNK

Alphabet, the PPM1A in fruit fly, negatively regulates RAS/MAPK signaling in Drosophila [25] and stress-activated protein kinase (SAPK) [26]. However, its substrates in these signaling pathways are unclear.

References

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15. Error fetching PMID 21960005: [Dai11]
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18. Error fetching PMID 11104763: [Hanada01]
19. Error fetching PMID 22750291: [Zhao12]
20. Error fetching PMID 25631048: [Abraham15]
21. Error fetching PMID 23320500: [Tasdelen13]
22. Error fetching PMID 22393050: [Yien12]
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24. Error fetching PMID 16872604: [Takeuchi06]
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