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. 2020 Oct 7;9(10):e1179. doi: 10.1002/cti2.1179

Table 2.

Mycobacterium infection results in alterations in a large number of microRNAs within the host cells these up‐ and down‐regulations are highly dependent upon the infecting Mycobacterial species and responding host cell types to produce context‐dependent cellular effects

miRNA Status a Targets Cell types Mycobacterium species Comment/mechanism(s) of action
Undetermined
1. miR‐125b κB‐Ras2 3′UTR Primary human mϕ Estradiol represses NF‐κB activation through induction of κB‐Ras2
2. miR‐129 SP3 Predicted Mycobacterium tuberculosis SP3 maintains M1/M2 plasticity

3. miR‐150↓;

miR‐485‐3p↑

 THP‐1 Mtb Beijing/W, non‐Beijing/W clinical strains Alterations in the Wnt pathway, insulin pathway, TGF‐β pathway, and glycosaminoglycan biosynthesis
4. miR‐33 NOD2 Predicted Mycobacterium tuberculosis Downregulation of NOD2 dampens the inflammatory response
5. miR‐365 IL‐6 HEK293 Post‐transcriptional level regulation of IL‐6 by miRNA‐365
6. miR‐455‐5p SOCS3 Predicted Mycobacterium tuberculosis The expression of miR‐455‐3p downregulate SOCS3 expression which promotes M2 phenotype
7. Sp110 miR‐125a; miR‐146a; miR‐155; miR‐21a; miR‐99b RAW264.7 Mycobacterium tuberculosis H37Ra Sp110‐mediated macrophage resistance to Mtb underlines the inhibiting of multiple miRNAs and modulating host immune response
Upregulated
8. hsa‐let‐7b‐5p APO‐1/FAS/CD95 THP‐1 Mycobacterium tuberculosis hsa‐let‐7b‐5p helps intracellular survival of Mtb in THP‐1 cells by downregulating Fas protein level
9. hsa‐miR‐144‐5p DRAM2 TB patients; PBCs; Tissues Mycobacterium tuberculosis Inhibiting anti‐bacterial autophagy
10. miR let‐7e CASP3 Human MDMs Mycobacterium avium Interfering with the regulation of apoptosis
11. miR‐106b‐5p Cathepsin S Human mϕ Mycobacterium tuberculosis Mtb avoids exposure to degradative enzymes in the endocytic pathway
12. miR‐1178 TLR4 Human mϕ; HTP‐1; U937 cells Mycobacterium tuberculosis Reduction of pro‐inflammatory cytokines‐ IFN‐γ, IL‐6, IL‐1β, and TNF‐α
13. miR‐124

MyD88; TRAF6;

TLR6

 TB patient Leucocytes; RAW264.7 AM

Mycobacterium tuberculosis;

Mycobacterium bovis (BCG)

Negative regulatory role of miR‐124 in the fine‐tuning inflammatory response in alveolar macrophages
14. miR‐125a UVRAG RAW264.7; J774A.1 Mycobacterium tuberculosis Inhibiting autophagosome formation thereby promoting intracellular growth of Mycobacterium tuberculosis
15. miR‐129‐3p Atg4b RAW264.7 Mycobacterium tuberculosis Inhibiting autophagy favors Mtb survival

16. miR‐132;

miR‐26a

 p300 Primary human mϕ Mycobacterium tuberculosis Limiting macrophage responses to IFN‐γ
17. miR‐140 TRAF6 TB patient PBMCs; THP‐1 and U937 Mycobacterium tuberculosis miR‐140 promotes Mtb survival by suppressing pro‐inflammatory cytokines production
18. miR‐142‐3p N‐Wasp J774A.1; Primary Human mϕ Mycobacterium smegmatis Alterations of actin filament assembly affecting other early events of phagolysosome biogenesis

19. miR‐143;

miR‐365

 c‐Maf, Bach‐1, and Elmo‐1 BMDMs Mtb clinical Beijing strain HN878 miRNA‐mediated regulation of c‐Maf, Bach‐1, and Elmo‐1 in Mtb‐infected (IL‐4/IL‐13) macrophages
20. miR‐144 TB patients PBMCs Mycobacterium tuberculosis Inhibiting TNF‐α and IFN‐γ production and T‐cell proliferation
21. miR‐144‐3p ATG4a RAW264.7

Mycobacterium bovis (BCG)

Mycobacterium tuberculosis

Inhibiting the formation of autophagosomes.
22. miR‐145 TIRAP MDMs Virulent H37Rv Elicited only by virulent H37Rv infection
23. miR‐146 IRAK1; TGFBR2 Bovine mϕ cell line (Bomac) Mycobacterium bovis Post‐transcriptional regulation of IL‐1, TLR signalling via IRAK1
24. miR‐146a TRAF6 RAW264.7; BMDMs Mycobacterium tuberculosis Suppressing nitric oxide production via iNOS
25. miR‐146a Human PBMCs Mycobacterium abscessus Mycobacterium abscessus may promote a neutrophil‐dependent growth niche
26. miR‐155 ATG3 Human DC Mycobacterium tuberculosis Subverting autophagy
27. miR‐155 SHIP1

Mycobacterium tuberculosis

Mycobacterium bovis (BCG)

miR‐155 regulating macrophage survival and T‐cell expansion through SHIP1; miR‐155 repressing the expression of SHIP1 and modulating ROS production
28. miR‐155 Rheb BMDMs; RAW264.7 Mycobacterium tuberculosis Induction of miR‐155, in turn, activates autophagy by targeting Rheb
29. miR‐155 FOXO3 THP‑1; TB Patients PBMCs Mycobacterium tuberculosis Apoptosis inhibition through regulating FOXO3 target genes

30. miR‐155;

miR‐ 31

 PP2A (Ppp2r5a) RAW264.7; BMDMs Mycobacterium bovis (BCG) Mycobacterium bovis BCG‐induced miR‐155 and miR‐ 31 are required for activating the WNT‐SHH pathway and autophagy regulation
31. miR‐1958 Atg5 RAW264.7 Mycobacterium tuberculosis Inhibiting autophagy by interacting with Atg5 and supporting intracellular Mtb survival
32. miR‐199a TBK1 J774A.1; BMDM Mycobacterium bovis Suppressing maturation of autophagosomes and interferon‐β (IFN‐β) production
33. miR‐206 TIMP‐3 THP‐1 Mycobacterium tuberculosis miR‐206 is a regulator of inflammation and MMP‐9 by targeting TIMP3
34. miR‐21 PFK‐M BMDM; Human MDM; RAW267.4

Mycobacterium tuberculosis

H37Ra, H37Rv

Mtb limits glycolysis in host macrophages through sustained induction of anti‐inflammatory miR‐21
35. miR‐21 IL‐12p35; Bcl‐2 BMDMs; BMDCs Mycobacterium bovis (BCG) Modulating anti‐mycobacterial TH1 response inefficacy of BCG vaccination
36. miR‐223 CXCL2; CCL3; IL‐6 TB patients; Murine myeloid cells Mycobacterium tuberculosis miR‐223 regulating leucocyte chemotaxis via chemoattractants
37. miR‐22‐3p Unknown TB patient Mycobacterium tuberculosis Plasma biomarker
38. miR‐23a‐5p TLR2 RAW264.7 Mycobacterium tuberculosis Modulation of TLR2/MyD88/NF‐κB signalling
39. miR‐27a CACNA2D3 Human PBMCs Mycobacterium tuberculosis Inhibiting autophagosome formation and promoting the intracellular survival of Mtb
40. miR‐27b Bag2 RAW264.7; HEK293T Mycobacterium tuberculosis miR‐27b positively regulates apoptosis by directly targeting Bag2 and increasing the activity of the p53–ROS signalling pathway
41. miR‐29a CASP7 Human MDMs Mycobacterium avium Interfering with the regulation of apoptosis
42. miR‐30a MyD88 THP‐1 cells Mycobacterium tuberculosis H37Rv Inhibiting TLR/MyD88 activation and cytokine (TNF‐α, IL‐6, IL‐8) expression

43. miR‐31;

miR‐150

 MyD88 TB patients PBMCs; BMDMs Mycobacterium bovis (BCG) Sonic hedgehog signalling‐responsive miR‐31 and miR‐150 target MyD88 suppressing TLR2 signalling
44. miR‐3178 TRAF‐3 THP‐1 Mycobacterium tuberculosis H37Rv More research is required for inferring definitive roles of this miRNA in the context of Mtb infection
45. miR‐32‐5p FSTL1 THP‐1 and U937 Mycobacterium tuberculosis TLR‐4/miRNA‐32‐5p/FSTL1 axis modulating host defence against mycobacterial infection
46. miR‐33 ABCA1; ATG5; LAMP1 THP‐1 Mycobacterium tuberculosis Target's autophagy suppression, and compromisation of lysosomal function, and lipid homeostasis
47. miR‐3619‐5p Cathepsin S (CTSS) THP‐1 Mycobacterium bovis (BCG) CTSS targeting by miR‐3619‐5p impairs the degradation of autophagic substrates thus blocking autophagosome‐lysosome processing
48. miR‐381‐3p CD1c TB patient DCs Bacillus calmette‐Guérin (BCG) Suppression of lipid antigen presentation and induction of IL‐10
49. miR‐579 SIRT1; PDK1 Human mϕ Mycobacterium tuberculosis Macrophage cell death and apoptosis
50. miR‐‐5p Bcl‐2; TLR4 RAW264.7 and THP‐1 Mycobacterium tuberculosis Enhances Mtb survival and apoptosis, by attenuating the secretion of inflammatory cytokines (IL‐1β, IL‐6, and TNF‐α)
51. miR‐708‐5p TLR4 Human mϕ Mycobacterium tuberculosis Reduction of pro‐inflammatory cytokines‐ IFN‐γ, IL‐6, IL‐1β, and TNF‐α
52. miR‐889 TWEAK Latent TB patients Mycobacterium tuberculosis miR‐889 inhibits autophagy via suppression of TWEAK expression
53. miR‐99b

TNFRSF4/

OX40; TNF‐α

 DC and mϕ Mycobacterium tuberculosis H37Rv The knockdown of miR‐99b in DCs reduces Mtb growth owing to increasing levels of IL‐1β, TNF‐α
Downregulated
54. miR let‐7f A20/TNFAIP3 RAW264.7 Mycobacterium tuberculosis Mycobacterium tuberculosis macrophage infection leads to ESAT‐6‐dependent miRNA let‐7f downregulation
55. miR‐125b TNF mRNA Human mϕ Mycobacterium smegmatis TLR2‐dependent MAPK p38 and the PI3K/Akt pathway with the production of steady‐state TNF mRNA
56. miR‐144 Tpl2/MAP3K8 MDMs Mycobacterium tuberculosis Suppression of TNF‐α, IL‐1β, and IL‐6 via the ERK1/2 pathway
57. miR‐17 ULK1; Beclin 1; ATG7; MCL‐1 ATG16L1; p62; STAT3 RAW264.7 Mycobacterium tuberculosis miR‐17/PKC δ/STAT3 axis regulates autophagy during Mtb infection
58. miR‐20b NLRP3 TB patient mϕ Mycobacterium tuberculosis Deactivating the NLRP3/caspase‐1/IL‐1β pathway in TB mice; Mitigating the inflammation and pyroptosis
59. miR‐20b‐5p Mcl‐1 RAW264.7 Mycobacterium tuberculosis Enhancing Mtb survival via attenuating the cell apoptosis by Mcl‐1 upregulation
60. miR‐26a KLF4 RAW264.7 Mycobacterium tuberculosis Facilitates upregulation of KLF4 consequently increases arginase and decreases iNOS activity; affecting the trafficking of Mtb to lysosomes
61. miR‐26b TAK‐1 THP‐1 Mycobacterium tuberculosis miR‐26b suppresses the TNFα‐induced NF‐κB signalling in THP‐1 cells
62. miR‐27a TAB 2/3 RAW264.7; BMDMs Mycobacterium avium subspecies paratuberculosis Inhibiting the activation of the MAPK‐p38 signalling
63. miR‐27a IRAK4 THP‐1 Mycobacterium tuberculosis miR‐27a inhibiting the release of inflammatory factors and promoting mycobacterial survival
64. miR‐29 IFN‐γ mRNA NK cell; CD4+; CD8+ T cells Mycobacterium bovis (BCG) miR‐29 suppresses IFN‐γ production by directly targeting IFN‐γ mRNA
65. miR‐3178 TRAF‐3 GES‐1 cells Helicobacter pylori Contrasting to Mtb infection, miR‐3178 is downregulated, controls inflammation, and gastric carcinogenesis in this model
a

Status of miRNAs indicating Downregulation (↓) and Upregulation (↑)