The parathyroid gland-specific proteome

The parathyroid gland is an endocrine organ that plays a pivotal role in the maintenance of blood calcium level. In response to decreased calcium levels, parathyroid hormone is released into the blood and restores calcium level mainly by regulating bone and kidney functions. Transcriptome analysis shows that 65% (n=12798) of all human proteins (n=19670) are expressed in the parathyroid gland and 224 of these genes show an elevated expression in parathyroid gland compared to other tissue types.

  • 224 elevated genes
  • 22 enriched genes
  • 34 group enriched genes
  • Parathyroid gland has most group enriched gene expression in common with brain


The parathyroid gland transcriptome

Transcriptome analysis of the parathyroid gland can be visualized with regard to specificity and distribution of transcribed mRNA molecules (Figure 1). Specificity illustrates the number of genes with elevated or non-elevated expression in the parathyroid gland compared to other tissues. Elevated expression includes three subcategory types of elevated expression:

  • Tissue enriched: At least four-fold higher mRNA level in parathyroid gland compared to any other tissues.
  • Group enriched: At least four-fold higher average mRNA level in a group of 2-5 tissues compared to any other tissue.
  • Tissue enhanced: At least four-fold higher mRNA level in parathyroid gland compared to the average level in all other tissues.

Distribution, on the other hand, visualizes how many genes that have, or do not have, detectable levels (NX≥1) of transcribed mRNA molecules in the parathyroid gland compared to other tissues. As evident in Table 1, all genes elevated in parathyroid gland are categorized as:

  • Detected in single: Detected in a single tissue
  • Detected in some: Detected in more than one but less than one third of tissues
  • Detected in many: Detected in at least a third but not all tissues
  • Detected in all: Detected in all tissues

A. Specificity

B. Distribution

Figure 1. (A) The distribution of all genes across the five categories based on transcript specificity in parathyroid gland as well as in all other tissues. (B) The distribution of all genes across the six categories, based on transcript detection (NX≥1) in parathyroid gland as well as in all other tissues.

As shown in Figure 1, 224 genes show some level of elevated expression in the parathyroid gland compared to other tissues. The three categories of genes with elevated expression in parathyroid gland compared to other organs are shown in Table 1. In Table 2, the 12 genes with the highest enrichment in parathyroid gland are defined.

Table 1. Number of genes in the subdivided categories of elevated expression in parathyroid gland.

Distribution in the 37 tissues
Detected in singleDetected in someDetected in manyDetected in all Total
Specificity
Tissue enriched 0769 22
Group enriched 013192 34
Tissue enhanced 2249943 168
Total 24412454 224

Table 2. The 12 genes with the highest level of enriched expression in parathyroid gland. "Tissue distribution" describes the transcript detection (NX≥1) in parathyroid gland as well as in all other tissues. "mRNA (tissue)" shows the transcript level in parathyroid gland as NX values. "Tissue specificity score (TS)" corresponds to the fold-change between the expression level in parathyroid gland and the tissue with second highest expression level.

Gene Description Tissue distribution mRNA (tissue) Tissue specificity score
GPR32 G protein-coupled receptor 32 Detected in some 63.4 52
GCM2 glial cells missing homolog 2 Detected in some 110.5 24
TMC3 transmembrane channel like 3 Detected in many 66.9 15
PCDHAC1 protocadherin alpha subfamily C, 1 Detected in some 33.3 12
HMGXB3 HMG-box containing 3 Detected in all 151.8 8
PTH parathyroid hormone Detected in some 963.9 7
CD109 CD109 molecule Detected in many 203.4 7
CASR calcium sensing receptor Detected in some 155.3 7
RAB6D RAB6D, member RAS oncogene family Detected in some 13.4 7
CHGA chromogranin A Detected in many 577.6 6
TINF2 TERF1 interacting nuclear factor 2 Detected in all 268.9 6
LGI2 leucine rich repeat LGI family member 2 Detected in many 113.9 6


Protein expression of genes elevated in parathyroid gland

In-depth analysis of the elevated genes in parathyroid gland using antibody-based protein profiling allowed us to visualize the expression patterns of these proteins in different functional compartments including proteins involved in extracellular calcium homeostasis and proteins that bind intracellular calcium.

Proteins involved in extracellular calcium homeostasis in parathyroid gland

Parathyroid gland regulates calcium homeostasis by producing and releasing parathyroid hormone (PTH). Extracellular calcium level is continuously monitored by CASR, a receptor located at the cell membrane of chief cells. In response to decreased calcium level, PTH synthesis is triggered in chief cells whereupon it is released into the blood. It restores calcium levels in the blood by binding parathyroid hormone receptor in bone and kidney which results in increased bone resorption and calcium reabsorption. Calcium reabsorption in the kidney is also regulated by CASR, located at the cell membrane of epithelial cells in the thick ascending limb of the loop of Henle.


CASR

PTH

Proteins that bind intracellular calcium in parathyroid gland

Several genes with an elevated expression in parathyroid gland encode proteins that bind intracellular calcium ions. CHGA is abundant in secretory granules and has high affinity for calcium ions but does not bind them strongly. Thus, CHGA facilitates storage of calcium ions in secretory granules and a buffering mechanism between these vesicles and the cytosol. PVALB binds calcium ions in the cytosol and is believed to be involved in the buffering of intracellular calcium. STXBP5 is a less characterized intracellular protein that may regulate calcium-dependent exocytosis by inhibiting membrane fusion between intracellular vesicles and cell membrane.


CHGA

PVALB

STXBP5


Gene expression shared between parathyroid gland and other tissues

There are 34 group enriched genes expressed in parathyroid gland. Group enriched genes are defined as genes showing a 4-fold higher average level of mRNA expression in a group of 2-5 tissues, including parathyroid gland, compared to all other tissues.

In order to illustrate the relation of parathyroid gland tissue to other tissue types, a network plot was generated, displaying the number of genes with shared expression between different tissue types.

Figure 2. An interactive network plot of the parathyroid gland enriched and group enriched genes connected to their respective enriched tissues (grey circles). Red nodes represent the number of parathyroid gland enriched genes and orange nodes represent the number of genes that are group enriched. The sizes of the red and orange nodes are related to the number of genes displayed within the node. Each node is clickable and results in a list of all enriched genes connected to the highlighted edges. The network is limited to group enriched genes in combinations of up to 3 tissues, but the resulting lists show the complete set of group enriched genes in the particular tissue.


Parathyroid gland mainly shares group enriched gene expression with brain (n= 23). One example of a protein expressed in both parathyroid gland and the cerebral cortex of the brain is PEX5L, an intracellular protein that may regulate hyperpolarization-activated cyclic nucleotide-gated channels.


PEX5L - parathyroid gland

PEX5L - cerebral cortex


Parathyroid gland function

Parathyroid gland regulates calcium homeostasis by producing and releasing parathyroid hormone (PTH). PTH restores blood calcium levels by 1) activating osteoclasts to release calcium from bone into blood, 2) increasing calcium reabsorption in the kidney and 3) triggering activation of vitamin D in the kidney. The active form of vitamin D, calcitriol, stimulates uptake of calcium from food through the small intestines and further release of calcium from bone.

PTH concentration in the blood is dependent on the release of preformed PTH stored in secretory granules and by the synthesis of new PTH. The activity of calcium sensing receptor (CASR) regulates secretion of preformed PTH. This receptor is located at the cell membrane of chief cells and detects changes in extracellular calcium level by binding calcium ions. High extracellular calcium concentration activates CASR and consequently triggers an intracellular signal pathway that inhibits secretion of preformed PTH. Low calcium level has an opposite effect: PTH secretion is increased in the absence of CASR activation. Thus, the level of PTH in blood changes within minutes and the delicate balance in calcium homeostasis is maintained. Calcitriol alters the transcription of the PTH gene, thus affecting the replenishment of PTH stored in secretory granules. It also may have an indirect effect on PTH release by increasing the expression of CASR.


Parathyroid gland histology

Parathyroid glands are highly vascularized endocrine organs located behind the thyroid gland. There are typically four parathyroid glands, each about 5 mm in size and weighing 130 mg, however, the exact number and size of the glands may vary depending on the individual. Chief cells are the predominant cell type characterised by round nucleus surrounded by scarce cytoplasm. They produce and secrete PTH in response to low extracellular calcium level detected by receptors in the cell membrane. Larger oxyphil cells with eosinophilic cytoplasm and a slightly smaller nucleus form clusters scattered between chief cells. The function of oxyphil cells is still unknown and whether they are derived from or they are a deactivated form of chief cells is debated. A third cell type, transitional oxyphil cells are similar to size to chief cells but have a more eosinophilic staining, which may be an evidence of a transition from chief cells to oxyphil cells.

The histology of human parathyroid gland including detailed images and information can be viewed in the Protein Atlas Histology Dictionary.


Background

Here, the protein-coding genes expressed in parathyroid gland are described and characterized, together with examples of immunohistochemically stained tissue sections that visualize corresponding protein expression patterns of genes with elevated expression in parathyroid gland.


Transcript profiling was based on a combination of three transcriptomics datasets (HPA, GTEx and FANTOM5, corresponding to a total of 483 samples from 37 different human normal tissue types. The final consensus normalized expression (NX) value for each tissue type was used for classification of all genes according to the tissue specific expression into two different categories, based on specificity or distribution.


Relevant links and publications

Uhlén M et al, 2015. Tissue-based map of the human proteome. Science
PubMed: 25613900 DOI: 10.1126/science.1260419

Yu NY et al, 2015. Complementing tissue characterization by integrating transcriptome profiling from the Human Protein Atlas and from the FANTOM5 consortium. Nucleic Acids Res.
PubMed: 26117540 DOI: 10.1093/nar/gkv608

Fagerberg L et al, 2014. Analysis of the human tissue-specific expression by genome-wide integration of transcriptomics and antibody-based proteomics. Mol Cell Proteomics.
PubMed: 24309898 DOI: 10.1074/mcp.M113.035600

Histology dictionary - the parathyroid gland