Hepatocyte nuclear factors

Hepatocyte nuclear factors (HNFs) are a group of phylogenetically unrelated transcription factors that regulate the transcription of a diverse group of genes into proteins. These proteins include blood clotting factors and in addition, enzymes and transporters involved with glucose, cholesterol, and fatty acid transport and metabolism.^[1][2]

As the name suggests, hepatocyte nuclear factors are expressed predominantly in the liver. However HNFs are also expressed and play important roles in a number of other tissues so that the name hepatocyte nuclear factor is somewhat misleading. Nevertheless, the liver is the only tissue in which a significant number of different HNFs are expressed at the same time. In addition, there are a number of genes which contain multiple promoter and enhancer regions each regulated by a different HNF. Furthermore, efficient expression of these genes require synergistic activation by multiple HNFs. Hence hepatocyte nuclear factors function to ensure liver specific expression of certain genes.

As is the case with many transcription factors, HNFs regulate the expression of a wide variety of target genes and therefore functions. These functions (and especially functions involving the liver) include development and metabolic homeostasis of the organism. For example, HNFs influence expression of the insulin gene as well as genes involved in glucose transport and metabolism. In embryo development, HNF4α is thought to have an important role in the development of the liver, kidney, and intestines.

Variants of the genes can cause several relatively rare forms of MODY, an inherited, early onset form of diabetes. Mutations in the HNF4α, HNF1α, or HNF1β genes are linked to MODY 1, MODY 3, and MODY 5 respectively.^[3] Mutations in HNF genes are also associated with a number of others diseases including hepatic adenomas and renal cysts.

The following is a list of human hepatocyte nuclear factors (see also boxes to the right for additional information about these proteins):

Members of the HNF1 subfamily contain a POU-homeodomain and bind to DNA as homodimers.

• HNF1α/TCF1/MODY3 (related disease: MODY 3)
• HNF1β/TCF2/MODY5 (related disease: MODY 5)

hepatocyte nuclear factor 1, alpha Structure of the hepatocyte nuclear factor 1A (green cartoon) bound to DNA (magenta) based on the crystallographic coordinates PDB: 1IC8​. Identifiers Symbol HNF1A Alt. symbols MODY3, HNF1, LFB1, TCF1 NCBI gene 6927 HGNC 11621 OMIM 142410 PDB 1JB6 RefSeq NM_000545 UniProt P20823 Other data Locus Chr. 12 q24.3-12q24.3 Search for Structures Swiss-model Domains InterPro

hepatocyte nuclear factor 1, beta Identifiers Symbol HNF1B Alt. symbols TCF2, HNF1beta, LFB3 MODY5, VHNF1 NCBI gene 6928 HGNC 11630 OMIM 189907 PDB 2H8R RefSeq NM_000458 UniProt P35680 Other data Locus Chr. 17 q12-17q12 Search for Structures Swiss-model Domains InterPro

The HNF3 subfamily members contain a winged helix DNA-binding domain and bind to DNA as monomers.

• HNF3α/FOXA1 (forkhead box A1)
• HNF3β/FOXA2 (forkhead box A2)
• HNF3γ/FOXA3 (forkhead box A3)

Members of the HNF4 subfamily are nuclear receptors and bind to DNA either as homodimers or RXR heterodimers.

• HNF4α/TCF14/MODY1
• HNF4γ

The HNF6 subfamily members contain a cut-homeodomain (ONECUT) bind to DNA as monomers.

• HNF6α/OC-1/ONECUT1 (ONECUT1)
• HNF6β/OC-2/ONECUT2 (ONECUT2)

• HNF4
• Transcription (genetics)
• Maturity onset diabetes of the young

• 
  Hepatocyte nuclear factor 1A bound to DNA [1]
• 
  Different rendering of HNF1a bound to DNA

• Hepatocyte+Nuclear+Factors at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
• Transcription networks in the liver
• transthyretin promoter, an example of a regulatory region containing HNF binding sites
• HNF4 in genetics of diabetes